some missing files added to git repo

This commit is contained in:
SandroB 2015-01-25 11:42:15 +01:00
parent 21b75b4c56
commit 1472b4e35d
29 changed files with 5528 additions and 1 deletions

2
external/Makefile vendored
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@ -52,7 +52,7 @@ STRIP := $(NDK_TOOLCHAIN_BASE)/bin/$(HOST)-strip \
--strip-unneeded -R .note -R .comment
# PIEFLAGS for SDK 16/Android L must be set to -fPIE -pie
PIEFLAGS? =
PIEFLAGS = -fPIE -pie
CFLAGS = -DANDROID $(TARGET_CFLAGS) $(PIEFLAGS)
LDFLAGS = -llog $(TARGET_LDFLAGS) $(PIEFLAGS)

3
jni/Application.mk Normal file
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@ -0,0 +1,3 @@
APP_OPTIM := release
APP_ABI := all #armeabi armeabi-v7a mips x86
APP_PLATFORM := android-14

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package com.runjva.sourceforge.jsocks.main;
import java.io.FileInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.net.InetAddress;
import java.net.UnknownHostException;
import java.util.Hashtable;
import java.util.Properties;
import java.util.StringTokenizer;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.runjva.sourceforge.jsocks.protocol.InetRange;
import com.runjva.sourceforge.jsocks.protocol.ProxyServer;
import com.runjva.sourceforge.jsocks.protocol.SocksProxyBase;
import com.runjva.sourceforge.jsocks.server.IdentAuthenticator;
public class SOCKS {
private static final int DEFAULT_LISTENING_PORT = 1080;
final private static Logger log = LoggerFactory.getLogger(SOCKS.class);
static public void usage() {
System.out.println("Usage: java SOCKS [inifile1 inifile2 ...]\n"
+ "If none inifile is given, uses socks.properties.\n");
}
static public void main(String[] args) {
String[] file_names;
int port = DEFAULT_LISTENING_PORT;
String logFile = null;
String host = null;
final IdentAuthenticator auth = new IdentAuthenticator();
InetAddress localIP = null;
if (args.length == 0) {
file_names = new String[] { "socks.properties" };
} else {
file_names = args;
}
inform("Loading properties");
for (int i = 0; i < file_names.length; ++i) {
inform("Reading file " + file_names[i]);
final Properties pr = loadProperties(file_names[i]);
if (pr == null) {
System.err.println("Loading of properties from "
+ file_names[i] + "failed.");
usage();
return;
}
if (!addAuth(auth, pr)) {
System.err.println("Error in file " + file_names[i] + ".");
usage();
return;
}
// First file should contain all global settings,
// like port and host and log.
if (i == 0) {
final String port_s = (String) pr.get("port");
if (port_s != null) {
try {
port = Integer.parseInt(port_s);
} catch (final NumberFormatException nfe) {
System.err.println("Can't parse port: " + port_s);
return;
}
}
serverInit(pr);
logFile = (String) pr.get("log");
host = (String) pr.get("host");
}
// inform("Props:"+pr);
}
if (logFile != null) {
System.err.println("log property not supported anymore.");
}
if (host != null) {
try {
localIP = InetAddress.getByName(host);
} catch (final UnknownHostException uhe) {
System.err.println("Can't resolve local ip: " + host);
return;
}
}
inform("Using Ident Authentication scheme: " + auth);
final ProxyServer server = new ProxyServer(auth);
server.start(port, 5, localIP);
}
static Properties loadProperties(String file_name) {
final Properties pr = new Properties();
try {
final InputStream fin = new FileInputStream(file_name);
pr.load(fin);
fin.close();
} catch (final IOException ioe) {
return null;
}
return pr;
}
static boolean addAuth(IdentAuthenticator ident, Properties pr) {
InetRange irange;
final String range = (String) pr.get("range");
if (range == null) {
return false;
}
irange = parseInetRange(range);
final String users = (String) pr.get("users");
if (users == null) {
ident.add(irange, null);
return true;
}
final Hashtable<String, String> uhash = new Hashtable<String, String>();
final StringTokenizer st = new StringTokenizer(users, ";");
while (st.hasMoreTokens()) {
uhash.put(st.nextToken(), "");
}
ident.add(irange, uhash);
return true;
}
/**
* Does server initialisation.
*/
static void serverInit(Properties props) {
int val;
val = readInt(props, "iddleTimeout");
if (val >= 0) {
ProxyServer.setIddleTimeout(val);
inform("Setting iddle timeout to " + val + " ms.");
}
val = readInt(props, "acceptTimeout");
if (val >= 0) {
ProxyServer.setAcceptTimeout(val);
inform("Setting accept timeout to " + val + " ms.");
}
val = readInt(props, "udpTimeout");
if (val >= 0) {
ProxyServer.setUDPTimeout(val);
inform("Setting udp timeout to " + val + " ms.");
}
val = readInt(props, "datagramSize");
if (val >= 0) {
ProxyServer.setDatagramSize(val);
inform("Setting datagram size to " + val + " bytes.");
}
proxyInit(props);
}
/**
* Initialises proxy, if any specified.
*/
static void proxyInit(Properties props) {
String proxy_list;
SocksProxyBase proxy = null;
StringTokenizer st;
proxy_list = (String) props.get("proxy");
if (proxy_list == null) {
return;
}
st = new StringTokenizer(proxy_list, ";");
while (st.hasMoreTokens()) {
final String proxy_entry = st.nextToken();
final SocksProxyBase p = SocksProxyBase.parseProxy(proxy_entry);
if (p == null) {
exit("Can't parse proxy entry:" + proxy_entry);
}
inform("Adding Proxy:" + p);
if (proxy != null) {
p.setChainProxy(proxy);
}
proxy = p;
}
if (proxy == null) {
return; // Empty list
}
final String direct_hosts = (String) props.get("directHosts");
if (direct_hosts != null) {
final InetRange ir = parseInetRange(direct_hosts);
inform("Setting direct hosts:" + ir);
proxy.setDirect(ir);
}
ProxyServer.setProxy(proxy);
}
/**
* Inits range from the string of semicolon separated ranges.
*/
static InetRange parseInetRange(String source) {
final InetRange irange = new InetRange();
final StringTokenizer st = new StringTokenizer(source, ";");
while (st.hasMoreTokens()) {
irange.add(st.nextToken());
}
return irange;
}
/**
* Integer representaion of the property named name, or -1 if one is not
* found.
*/
static int readInt(Properties props, String name) {
int result = -1;
final String val = (String) props.get(name);
if (val == null) {
return -1;
}
final StringTokenizer st = new StringTokenizer(val);
if (!st.hasMoreElements()) {
return -1;
}
try {
result = Integer.parseInt(st.nextToken());
} catch (final NumberFormatException nfe) {
inform("Bad value for " + name + ":" + val);
}
return result;
}
// Display functions
// /////////////////
static void inform(String s) {
log.info(s);
}
static void exit(String msg) {
System.err.println("Error:" + msg);
System.err.println("Aborting operation");
System.exit(0);
}
}

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package com.runjva.sourceforge.jsocks.protocol;
/**
* The Authentication interface provides for performing method specific
* authentication for SOCKS5 connections.
*/
public interface Authentication {
/**
* This method is called when SOCKS5 server have selected a particular
* authentication method, for whch an implementaion have been registered.
*
* <p>
* This method should return an array {inputstream,outputstream
* [,UDPEncapsulation]}. The reason for that is that SOCKS5 protocol allows
* to have method specific encapsulation of data on the socket for purposes
* of integrity or security. And this encapsulation should be performed by
* those streams returned from the method. It is also possible to
* encapsulate datagrams. If authentication method supports such
* encapsulation an instance of the UDPEncapsulation interface should be
* returned as third element of the array, otherwise either null should be
* returned as third element, or array should contain only 2 elements.
*
* @param methodId
* Authentication method selected by the server.
* @param proxySocket
* Socket used to conect to the proxy.
* @return Two or three element array containing Input/Output streams which
* should be used on this connection. Third argument is optional and
* should contain an instance of UDPEncapsulation. It should be
* provided if the authentication method used requires any
* encapsulation to be done on the datagrams.
*/
Object[] doSocksAuthentication(int methodId, java.net.Socket proxySocket)
throws java.io.IOException;
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.InputStream;
import java.io.OutputStream;
/**
* SOCKS5 none authentication. Dummy class does almost nothing.
*/
public class AuthenticationNone implements Authentication {
public Object[] doSocksAuthentication(final int methodId,
final java.net.Socket proxySocket) throws java.io.IOException {
if (methodId != 0) {
return null;
}
InputStream in = proxySocket.getInputStream();
OutputStream out = proxySocket.getOutputStream();
return new Object[] { in, out };
}
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.net.InetAddress;
import java.net.UnknownHostException;
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.StringTokenizer;
import java.util.Vector;
/**
* Class InetRange provides the means of defining the range of inetaddresses.
* It's used by Proxy class to store and look up addresses of machines, that
* should be contacted directly rather then through the proxy.
* <P>
* InetRange provides several methods to add either standalone addresses, or
* ranges (e.g. 100.200.300.0:100.200.300.255, which covers all addresses on on
* someones local network). It also provides methods for checking wether given
* address is in this range. Any number of ranges and standalone addresses can
* be added to the range.
*/
public class InetRange implements Cloneable {
Hashtable<String, Object[]> host_names;
Vector<Object[]> all;
Vector<String> end_names;
boolean useSeparateThread = true;
/**
* Creates the empty range.
*/
public InetRange() {
all = new Vector<Object[]>();
host_names = new Hashtable<String, Object[]>();
end_names = new Vector<String>();
}
/**
* Adds another host or range to this range. The String can be one of those:
* <UL>
* <li>Host name. eg.(Athena.myhost.com or 45.54.56.65)
*
* <li>Range in the form .myhost.net.au <BR>
* In which case anything that ends with .myhost.net.au will be considered
* in the range.
*
* <li>Range in the form ddd.ddd.ddd. <BR>
* This will be treated as range ddd.ddd.ddd.0 to ddd.ddd.ddd.255. It is not
* necessary to specify 3 first bytes you can use just one or two. For
* example 130. will cover address between 130.0.0.0 and 13.255.255.255.
*
* <li>Range in the form host_from[: \t\n\r\f]host_to. <br>
* That is two hostnames or ips separated by either whitespace or colon.
* </UL>
*/
public synchronized boolean add(final String s0) {
if (s0 == null) {
return false;
}
String s = s0.trim();
if (s.length() == 0) {
return false;
}
Object[] entry;
if (s.endsWith(".")) {
// thing like: 111.222.33.
// it is being treated as range 111.222.33.000 - 111.222.33.255
final int[] addr = ip2intarray(s);
long from, to;
from = to = 0;
if (addr == null) {
return false;
}
for (int i = 0; i < 4; i++) {
if (addr[i] >= 0) {
from += (((long) addr[i]) << 8 * (3 - i));
} else {
to = from;
while (i < 4) {
to += 255l << 8 * (3 - i++);
}
break;
}
}
entry = new Object[] { s, null, new Long(from), new Long(to) };
all.addElement(entry);
} else if (s.startsWith(".")) {
// Thing like: .myhost.com
end_names.addElement(s);
all.addElement(new Object[] { s, null, null, null });
} else {
final StringTokenizer tokens = new StringTokenizer(s, " \t\r\n\f:");
if (tokens.countTokens() > 1) {
entry = new Object[] { s, null, null, null };
resolve(entry, tokens.nextToken(), tokens.nextToken());
all.addElement(entry);
} else {
entry = new Object[] { s, null, null, null };
all.addElement(entry);
host_names.put(s, entry);
resolve(entry);
}
}
return true;
}
/**
* Adds another ip for this range.
*
* @param ip
* IP os the host which should be added to this range.
*/
public synchronized void add(final InetAddress ip) {
long from, to;
from = to = ip2long(ip);
all.addElement(new Object[] { ip.getHostName(), ip, new Long(from),
new Long(to) });
}
/**
* Adds another range of ips for this range.Any host with ip address greater
* than or equal to the address of from and smaller than or equal to the
* address of to will be included in the range.
*
* @param from
* IP from where range starts(including).
* @param to
* IP where range ends(including).
*/
public synchronized void add(final InetAddress from, final InetAddress to) {
all.addElement(new Object[] {
from.getHostAddress() + ":" + to.getHostAddress(), null,
new Long(ip2long(from)), new Long(ip2long(to)) });
}
/**
* Checks wether the givan host is in the range. Attempts to resolve host
* name if required.
*
* @param host
* Host name to check.
* @return true If host is in the range, false otherwise.
* @see InetRange#contains(String,boolean)
*/
public synchronized boolean contains(final String host) {
return contains(host, true);
}
/**
* Checks wether the given host is in the range.
* <P>
* Algorithm: <BR>
* <ol>
* <li>Look up if the hostname is in the range (in the Hashtable).
* <li>Check if it ends with one of the speciefied endings.
* <li>Check if it is ip(eg.130.220.35.98). If it is check if it is in the
* range.
* <li>If attemptResolve is true, host is name, rather than ip, and all
* previous attempts failed, try to resolve the hostname, and check wether
* the ip associated with the host is in the range.It also repeats all
* previos steps with the hostname obtained from InetAddress, but the name
* is not allways the full name,it is quite likely to be the same. Well it
* was on my machine.
* </ol>
*
* @param host
* Host name to check.
* @param attemptResolve
* Wether to lookup ip address which corresponds to the host,if
* required.
* @return true If host is in the range, false otherwise.
*/
public synchronized boolean contains(final String host0,
final boolean attemptResolve) {
if (all.size() == 0) {
return false; // Empty range
}
String host = host0.trim();
if (host.length() == 0) {
return false;
}
if (checkHost(host)) {
return true;
}
if (checkHostEnding(host)) {
return true;
}
final long l = host2long(host);
if (l >= 0) {
return contains(l);
}
if (!attemptResolve) {
return false;
}
try {
final InetAddress ip = InetAddress.getByName(host);
return contains(ip);
} catch (final UnknownHostException uhe) {
}
return false;
}
/**
* Checks wether the given ip is in the range.
*
* @param ip
* Address of the host to check.
* @return true If host is in the range, false otherwise.
*/
public synchronized boolean contains(final InetAddress ip) {
if (checkHostEnding(ip.getHostName())) {
return true;
}
if (checkHost(ip.getHostName())) {
return true;
}
return contains(ip2long(ip));
}
/**
* Get all entries in the range as strings. <BR>
* These strings can be used to delete entries from the range with remove
* function.
*
* @return Array of entries as strings.
* @see InetRange#remove(String)
*/
public synchronized String[] getAll() {
final int size = all.size();
Object entry[];
final String all_names[] = new String[size];
for (int i = 0; i < size; ++i) {
entry = all.elementAt(i);
all_names[i] = (String) entry[0];
}
return all_names;
}
/**
* Removes an entry from this range.<BR>
*
* @param s
* Entry to remove.
* @return true if successfull.
*/
public synchronized boolean remove(final String s) {
final Enumeration<Object[]> enumx = all.elements();
while (enumx.hasMoreElements()) {
final Object[] entry = enumx.nextElement();
if (s.equals(entry[0])) {
all.removeElement(entry);
end_names.removeElement(s);
host_names.remove(s);
return true;
}
}
return false;
}
/** Get string representaion of this Range. */
public String toString() {
final String all[] = getAll();
if (all.length == 0) {
return "";
}
String s = all[0];
for (int i = 1; i < all.length; ++i) {
s += "; " + all[i];
}
return s;
}
/** Creates a clone of this Object */
@SuppressWarnings("unchecked")
public Object clone() {
final InetRange new_range = new InetRange();
new_range.all = (Vector<Object[]>) all.clone();
new_range.end_names = (Vector<String>) end_names.clone();
new_range.host_names = (Hashtable<String, Object[]>) host_names.clone();
return new_range;
}
// Private methods
// ///////////////
/**
* Same as previous but used internally, to avoid unnecessary convertion of
* IPs, when checking subranges
*/
private synchronized boolean contains(final long ip) {
final Enumeration<Object[]> enumx = all.elements();
while (enumx.hasMoreElements()) {
final Object[] obj = enumx.nextElement();
final Long from = obj[2] == null ? null : (Long) obj[2];
final Long to = obj[3] == null ? null : (Long) obj[3];
if ((from != null) && (from.longValue() <= ip)
&& (to.longValue() >= ip)) {
return true;
}
}
return false;
}
private boolean checkHost(final String host) {
return host_names.containsKey(host);
}
private boolean checkHostEnding(final String host) {
final Enumeration<String> enumx = end_names.elements();
while (enumx.hasMoreElements()) {
if (host.endsWith(enumx.nextElement())) {
return true;
}
}
return false;
}
private void resolve(final Object[] entry) {
// First check if it's in the form ddd.ddd.ddd.ddd.
final long ip = host2long((String) entry[0]);
if (ip >= 0) {
entry[2] = entry[3] = new Long(ip);
} else {
final InetRangeResolver res = new InetRangeResolver(entry);
res.resolve(useSeparateThread);
}
}
private void resolve(final Object[] entry, final String from,
final String to) {
long f, t;
if (((f = host2long(from)) >= 0) && ((t = host2long(to)) >= 0)) {
entry[2] = new Long(f);
entry[3] = new Long(t);
} else {
final InetRangeResolver res = new InetRangeResolver(entry, from, to);
res.resolve(useSeparateThread);
}
}
// Class methods
// /////////////
// Converts ipv4 to long value(unsigned int)
// /////////////////////////////////////////
static long ip2long(final InetAddress ip) {
long l = 0;
final byte[] addr = ip.getAddress();
if (addr.length == 4) { // IPV4
for (int i = 0; i < 4; ++i) {
l += (((long) addr[i] & 0xFF) << 8 * (3 - i));
}
} else { // IPV6
return 0; // Have no idea how to deal with those
}
return l;
}
long host2long(final String host) {
long ip = 0;
// check if it's ddd.ddd.ddd.ddd
if (!Character.isDigit(host.charAt(0))) {
return -1;
}
final int[] addr = ip2intarray(host);
if (addr == null) {
return -1;
}
for (int i = 0; i < addr.length; ++i) {
ip += ((long) (addr[i] >= 0 ? addr[i] : 0)) << 8 * (3 - i);
}
return ip;
}
static int[] ip2intarray(final String host) {
final int[] address = { -1, -1, -1, -1 };
int i = 0;
final StringTokenizer tokens = new StringTokenizer(host, ".");
if (tokens.countTokens() > 4) {
return null;
}
while (tokens.hasMoreTokens()) {
try {
address[i++] = Integer.parseInt(tokens.nextToken()) & 0xFF;
} catch (final NumberFormatException nfe) {
return null;
}
}
return address;
}
/*
* //* This was the test main function //**********************************
*
* public static void main(String args[])throws UnknownHostException{ int i;
*
* InetRange ir = new InetRange();
*
*
* for(i=0;i<args.length;++i){ System.out.println("Adding:" + args[i]);
* ir.add(args[i]); }
*
* String host; java.io.DataInputStream din = new
* java.io.DataInputStream(System.in); try{ host = din.readLine();
* while(host!=null){ if(ir.contains(host)){
* System.out.println("Range contains ip:"+host); }else{
* System.out.println(host+" is not in the range"); } host = din.readLine();
* } }catch(java.io.IOException io_ex){ io_ex.printStackTrace(); } }
* ******************
*/
}
class InetRangeResolver implements Runnable {
Object[] entry;
String from;
String to;
InetRangeResolver(final Object[] entry) {
this.entry = entry;
from = null;
to = null;
}
InetRangeResolver(final Object[] entry, final String from, final String to) {
this.entry = entry;
this.from = from;
this.to = to;
}
public final void resolve() {
resolve(true);
}
public final void resolve(final boolean inSeparateThread) {
if (inSeparateThread) {
final Thread t = new Thread(this);
t.start();
} else {
run();
}
}
public void run() {
try {
if (from == null) {
final InetAddress ip = InetAddress.getByName((String) entry[0]);
entry[1] = ip;
final Long l = new Long(InetRange.ip2long(ip));
entry[2] = l;
entry[3] = l;
} else {
final InetAddress f = InetAddress.getByName(from);
final InetAddress t = InetAddress.getByName(to);
entry[2] = new Long(InetRange.ip2long(f));
entry[3] = new Long(InetRange.ip2long(t));
}
} catch (final UnknownHostException uhe) {
// System.err.println("Resolve failed for "+from+','+to+','+entry[0]);
}
}
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.UnknownHostException;
/**
* Abstract class which describes SOCKS4/5 response/request.
*/
public abstract class ProxyMessage {
/** Host as an IP address */
public InetAddress ip = null;
/** SOCKS version, or version of the response for SOCKS4 */
public int version;
/** Port field of the request/response */
public int port;
/** Request/response code as an int */
public int command;
/** Host as string. */
public String host = null;
/** User field for SOCKS4 request messages */
public String user = null;
ProxyMessage(int command, InetAddress ip, int port) {
this.command = command;
this.ip = ip;
this.port = port;
}
ProxyMessage() {
}
/**
* Initialises Message from the stream. Reads server response from given
* stream.
*
* @param in
* Input stream to read response from.
* @throws SocksException
* If server response code is not SOCKS_SUCCESS(0), or if any
* error with protocol occurs.
* @throws IOException
* If any error happens with I/O.
*/
public abstract void read(InputStream in) throws SocksException,
IOException;
/**
* Initialises Message from the stream. Reads server response or client
* request from given stream.
*
* @param in
* Input stream to read response from.
* @param clinetMode
* If true read server response, else read client request.
* @throws SocksException
* If server response code is not SOCKS_SUCCESS(0) and reading
* in client mode, or if any error with protocol occurs.
* @throws IOException
* If any error happens with I/O.
*/
public abstract void read(InputStream in, boolean client_mode)
throws SocksException, IOException;
/**
* Writes the message to the stream.
*
* @param out
* Output stream to which message should be written.
*/
public abstract void write(OutputStream out) throws SocksException,
IOException;
/**
* Get the Address field of this message as InetAddress object.
*
* @return Host address or null, if one can't be determined.
*/
public InetAddress getInetAddress() throws UnknownHostException {
return ip;
}
/**
* Get string representaion of this message.
*
* @return string representation of this message.
*/
public String toString() {
return "Proxy Message:\n" + "Version:" + version + "\n" + "Command:"
+ command + "\n" + "IP: " + ip + "\n" + "Port: " + port
+ "\n" + "User: " + user + "\n";
}
// Package methods
// ////////////////
static final String bytes2IPV4(byte[] addr, int offset) {
String hostName = "" + (addr[offset] & 0xFF);
for (int i = offset + 1; i < offset + 4; i++) {
hostName += "." + (addr[i] & 0xFF);
}
return hostName;
}
static final String bytes2IPV6(byte[] addr, int offset) {
// Have no idea how they look like!
return null;
}
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.EOFException;
import java.io.IOException;
import java.io.InputStream;
import java.io.InterruptedIOException;
import java.io.OutputStream;
import java.io.PushbackInputStream;
import java.net.ConnectException;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.NoRouteToHostException;
import java.net.ServerSocket;
import java.net.Socket;
import java.net.SocketAddress;
import java.nio.channels.SocketChannel;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import android.net.VpnService;
import com.runjva.sourceforge.jsocks.server.ServerAuthenticator;
/**
* SOCKS4 and SOCKS5 proxy, handles both protocols simultaniously. Implements
* all SOCKS commands, including UDP relaying.
* <p>
* In order to use it you will need to implement ServerAuthenticator interface.
* There is an implementation of this interface which does no authentication
* ServerAuthenticatorNone, but it is very dangerous to use, as it will give
* access to your local network to anybody in the world. One should never use
* this authentication scheme unless one have pretty good reason to do so. There
* is a couple of other authentication schemes in socks.server package.
*
* @see socks.server.ServerAuthenticator
*/
public class ProxyServer implements Runnable {
ServerAuthenticator auth;
ProxyMessage msg = null;
Socket sock = null, remote_sock = null;
ServerSocket ss = null;
UDPRelayServer relayServer = null;
InputStream in, remote_in;
OutputStream out, remote_out;
int mode;
static final int START_MODE = 0;
static final int ACCEPT_MODE = 1;
static final int PIPE_MODE = 2;
static final int ABORT_MODE = 3;
static final int BUF_SIZE = 8192;
Thread pipe_thread1, pipe_thread2;
long lastReadTime;
static int iddleTimeout = 180000; // 3 minutes
static int acceptTimeout = 180000; // 3 minutes
static Logger log = LoggerFactory.getLogger(ProxyServer.class);
static SocksProxyBase proxy;
static VpnService vpnService;
// Public Constructors
// ///////////////////
/**
* Creates a proxy server with given Authentication scheme.
*
* @param auth
* Authentication scheme to be used.
*/
public ProxyServer(final ServerAuthenticator auth) {
this.auth = auth;
}
// Other constructors
// //////////////////
ProxyServer(final ServerAuthenticator auth, final Socket s) {
this.auth = auth;
this.sock = s;
this.mode = START_MODE;
}
// Public methods
// ///////////////
/**
* Set proxy.
* <p>
* Allows Proxy chaining so that one Proxy server is connected to another
* and so on. If proxy supports SOCKSv4, then only some SOCKSv5 requests can
* be handled, UDP would not work, however CONNECT and BIND will be
* translated.
*
* @param p
* Proxy which should be used to handle user requests.
*/
public static void setProxy(final SocksProxyBase p) {
proxy = p;
// FIXME: Side effect.
UDPRelayServer.proxy = proxy;
}
public static void setVpnService (final VpnService v)
{
vpnService = v;
}
/**
* Get proxy.
*
* @return Proxy wich is used to handle user requests.
*/
public static SocksProxyBase getProxy() {
return proxy;
}
/**
* Sets the timeout for connections, how long shoud server wait for data to
* arrive before dropping the connection.<br>
* Zero timeout implies infinity.<br>
* Default timeout is 3 minutes.
*/
public static void setIddleTimeout(final int timeout) {
iddleTimeout = timeout;
}
/**
* Sets the timeout for BIND command, how long the server should wait for
* the incoming connection.<br>
* Zero timeout implies infinity.<br>
* Default timeout is 3 minutes.
*/
public static void setAcceptTimeout(final int timeout) {
acceptTimeout = timeout;
}
/**
* Sets the timeout for UDPRelay server.<br>
* Zero timeout implies infinity.<br>
* Default timeout is 3 minutes.
*/
public static void setUDPTimeout(final int timeout) {
UDPRelayServer.setTimeout(timeout);
}
/**
* Sets the size of the datagrams used in the UDPRelayServer.<br>
* Default size is 64K, a bit more than maximum possible size of the
* datagram.
*/
public static void setDatagramSize(final int size) {
UDPRelayServer.setDatagramSize(size);
}
/**
* Start the Proxy server at given port.<br>
* This methods blocks.
*/
public void start(final int port) {
start(port, 5, null);
}
/**
* Create a server with the specified port, listen backlog, and local IP
* address to bind to. The localIP argument can be used on a multi-homed
* host for a ServerSocket that will only accept connect requests to one of
* its addresses. If localIP is null, it will default accepting connections
* on any/all local addresses. The port must be between 0 and 65535,
* inclusive. <br>
* This methods blocks.
*/
public void start(final int port, final int backlog,
final InetAddress localIP) {
try {
ss = new ServerSocket(port, backlog, localIP);
final String address = ss.getInetAddress().getHostAddress();
final int localPort = ss.getLocalPort();
log.info("Starting SOCKS Proxy on: {}:{}", address, localPort);
while (true) {
final Socket s = ss.accept();
final String hostName = s.getInetAddress().getHostName();
final int port2 = s.getPort();
log.info("Accepted from:{}:{}", hostName, port2);
final ProxyServer ps = new ProxyServer(auth, s);
(new Thread(ps)).start();
}
} catch (final IOException ioe) {
ioe.printStackTrace();
} finally {
}
}
/**
* Stop server operation.It would be wise to interrupt thread running the
* server afterwards.
*/
public void stop() {
try {
if (ss != null) {
ss.close();
}
} catch (final IOException ioe) {
}
}
// Runnable interface
// //////////////////
public void run() {
switch (mode) {
case START_MODE:
try {
startSession();
} catch (final IOException ioe) {
handleException(ioe);
// ioe.printStackTrace();
} finally {
abort();
if (auth != null) {
auth.endSession();
}
log.info("Main thread(client->remote)stopped.");
}
break;
case ACCEPT_MODE:
try {
doAccept();
mode = PIPE_MODE;
pipe_thread1.interrupt(); // Tell other thread that connection
// have
// been accepted.
pipe(remote_in, out);
} catch (final IOException ioe) {
// log("Accept exception:"+ioe);
handleException(ioe);
} finally {
abort();
log.info("Accept thread(remote->client) stopped");
}
break;
case PIPE_MODE:
try {
pipe(remote_in, out);
} catch (final IOException ioe) {
} finally {
abort();
log.info("Support thread(remote->client) stopped");
}
break;
case ABORT_MODE:
break;
default:
log.warn("Unexpected MODE " + mode);
}
}
// Private methods
// ///////////////
private void startSession() throws IOException {
sock.setSoTimeout(iddleTimeout);
try {
auth = auth.startSession(sock);
} catch (final IOException ioe) {
log.warn("Auth throwed exception:", ioe);
auth = null;
return;
}
if (auth == null) { // Authentication failed
log.info("Authentication failed");
return;
}
in = auth.getInputStream();
out = auth.getOutputStream();
msg = readMsg(in);
handleRequest(msg);
}
private void handleRequest(final ProxyMessage msg) throws IOException {
if (!auth.checkRequest(msg)) {
throw new SocksException(SocksProxyBase.SOCKS_FAILURE);
}
if (msg.ip == null) {
if (msg instanceof Socks5Message) {
msg.ip = InetAddress.getByName(msg.host);
} else {
throw new SocksException(SocksProxyBase.SOCKS_FAILURE);
}
}
log(msg);
switch (msg.command) {
case SocksProxyBase.SOCKS_CMD_CONNECT:
onConnect(msg);
break;
case SocksProxyBase.SOCKS_CMD_BIND:
onBind(msg);
break;
case SocksProxyBase.SOCKS_CMD_UDP_ASSOCIATE:
onUDP(msg);
break;
default:
throw new SocksException(SocksProxyBase.SOCKS_CMD_NOT_SUPPORTED);
}
}
private void handleException(final IOException ioe) {
// If we couldn't read the request, return;
if (msg == null) {
return;
}
// If have been aborted by other thread
if (mode == ABORT_MODE) {
return;
}
// If the request was successfully completed, but exception happened
// later
if (mode == PIPE_MODE) {
return;
}
int error_code = SocksProxyBase.SOCKS_FAILURE;
if (ioe instanceof SocksException) {
error_code = ((SocksException) ioe).errCode;
} else if (ioe instanceof NoRouteToHostException) {
error_code = SocksProxyBase.SOCKS_HOST_UNREACHABLE;
} else if (ioe instanceof ConnectException) {
error_code = SocksProxyBase.SOCKS_CONNECTION_REFUSED;
} else if (ioe instanceof InterruptedIOException) {
error_code = SocksProxyBase.SOCKS_TTL_EXPIRE;
}
if ((error_code > SocksProxyBase.SOCKS_ADDR_NOT_SUPPORTED)
|| (error_code < 0)) {
error_code = SocksProxyBase.SOCKS_FAILURE;
}
sendErrorMessage(error_code);
}
private void onConnect(final ProxyMessage msg) throws IOException {
Socket s;
if (proxy == null) {
//s = new Socket(msg.ip, msg.port);
s= SocketChannel.open().socket();
if ((null != s) && (null != vpnService)) {
vpnService.protect(s);
}
s.connect(new InetSocketAddress(msg.ip,msg.port));
} else {
s = new SocksSocket(proxy, msg.ip, msg.port);
}
if (vpnService != null)
vpnService.protect(s);
log.info("Connected to " + s.getInetAddress() + ":" + s.getPort());
ProxyMessage response = null;
final InetAddress localAddress = s.getLocalAddress();
final int localPort = s.getLocalPort();
if (msg instanceof Socks5Message) {
final int cmd = SocksProxyBase.SOCKS_SUCCESS;
response = new Socks5Message(cmd, localAddress, localPort);
} else {
final int cmd = Socks4Message.REPLY_OK;
response = new Socks4Message(cmd, localAddress, localPort);
}
response.write(out);
startPipe(s);
}
private void onBind(final ProxyMessage msg) throws IOException {
ProxyMessage response = null;
if (proxy == null) {
ss = new ServerSocket(0);
} else {
ss = new SocksServerSocket(proxy, msg.ip, msg.port);
}
ss.setSoTimeout(acceptTimeout);
final InetAddress inetAddress = ss.getInetAddress();
final int localPort = ss.getLocalPort();
log.info("Trying accept on {}:{}", inetAddress, localPort);
if (msg.version == 5) {
final int cmd = SocksProxyBase.SOCKS_SUCCESS;
response = new Socks5Message(cmd, inetAddress, localPort);
} else {
final int cmd = Socks4Message.REPLY_OK;
response = new Socks4Message(cmd, inetAddress, localPort);
}
response.write(out);
mode = ACCEPT_MODE;
pipe_thread1 = Thread.currentThread();
pipe_thread2 = new Thread(this);
pipe_thread2.start();
// Make timeout infinit.
sock.setSoTimeout(0);
int eof = 0;
try {
while ((eof = in.read()) >= 0) {
if (mode != ACCEPT_MODE) {
if (mode != PIPE_MODE) {
return;// Accept failed
}
remote_out.write(eof);
break;
}
}
} catch (final EOFException e) {
log.debug("Connection closed while we were trying to accept", e);
return;
} catch (final InterruptedIOException e) {
log.debug("Interrupted by unsucessful accept thread", e);
if (mode != PIPE_MODE) {
return;
}
} finally {
// System.out.println("Finnaly!");
}
if (eof < 0) {
return;
}
// Do not restore timeout, instead timeout is set on the
// remote socket. It does not make any difference.
pipe(in, remote_out);
}
private void onUDP(final ProxyMessage msg) throws IOException {
if (msg.ip.getHostAddress().equals("0.0.0.0")) {
msg.ip = sock.getInetAddress();
}
log.info("Creating UDP relay server for {}:{}", msg.ip, msg.port);
relayServer = new UDPRelayServer(msg.ip, msg.port,
Thread.currentThread(), sock, auth);
ProxyMessage response;
response = new Socks5Message(SocksProxyBase.SOCKS_SUCCESS,
relayServer.relayIP, relayServer.relayPort);
response.write(out);
relayServer.start();
// Make timeout infinit.
sock.setSoTimeout(0);
try {
while (in.read() >= 0) {
/* do nothing */;
// FIXME: Consider a slight delay here?
}
} catch (final EOFException eofe) {
}
}
// Private methods
// ////////////////
private void doAccept() throws IOException {
Socket s = null;
final long startTime = System.currentTimeMillis();
while (true) {
s = ss.accept();
if (s.getInetAddress().equals(msg.ip)) {
// got the connection from the right host
// Close listenning socket.
ss.close();
break;
} else if (ss instanceof SocksServerSocket) {
// We can't accept more then one connection
s.close();
ss.close();
throw new SocksException(SocksProxyBase.SOCKS_FAILURE);
} else {
if (acceptTimeout != 0) { // If timeout is not infinit
final long passed = System.currentTimeMillis() - startTime;
final int newTimeout = acceptTimeout - (int) passed;
if (newTimeout <= 0) {
throw new InterruptedIOException("newTimeout <= 0");
}
ss.setSoTimeout(newTimeout);
}
s.close(); // Drop all connections from other hosts
}
}
// Accepted connection
remote_sock = s;
remote_in = s.getInputStream();
remote_out = s.getOutputStream();
// Set timeout
remote_sock.setSoTimeout(iddleTimeout);
final InetAddress inetAddress = s.getInetAddress();
final int port = s.getPort();
log.info("Accepted from {}:{}", s.getInetAddress(), port);
ProxyMessage response;
if (msg.version == 5) {
final int cmd = SocksProxyBase.SOCKS_SUCCESS;
response = new Socks5Message(cmd, inetAddress, port);
} else {
final int cmd = Socks4Message.REPLY_OK;
response = new Socks4Message(cmd, inetAddress, port);
}
response.write(out);
}
private ProxyMessage readMsg(final InputStream in) throws IOException {
PushbackInputStream push_in;
if (in instanceof PushbackInputStream) {
push_in = (PushbackInputStream) in;
} else {
push_in = new PushbackInputStream(in);
}
final int version = push_in.read();
push_in.unread(version);
ProxyMessage msg;
if (version == 5) {
msg = new Socks5Message(push_in, false);
} else if (version == 4) {
msg = new Socks4Message(push_in, false);
} else {
throw new SocksException(SocksProxyBase.SOCKS_FAILURE);
}
return msg;
}
private void startPipe(final Socket s) {
mode = PIPE_MODE;
remote_sock = s;
try {
remote_in = s.getInputStream();
remote_out = s.getOutputStream();
pipe_thread1 = Thread.currentThread();
pipe_thread2 = new Thread(this);
pipe_thread2.start();
pipe(in, remote_out);
} catch (final IOException ioe) {
}
}
private void sendErrorMessage(final int error_code) {
ProxyMessage err_msg;
if (msg instanceof Socks4Message) {
err_msg = new Socks4Message(Socks4Message.REPLY_REJECTED);
} else {
err_msg = new Socks5Message(error_code);
}
try {
err_msg.write(out);
} catch (final IOException ioe) {
}
}
private synchronized void abort() {
if (mode == ABORT_MODE) {
return;
}
mode = ABORT_MODE;
try {
log.info("Aborting operation");
if (remote_sock != null) {
remote_sock.close();
}
if (sock != null) {
sock.close();
}
if (relayServer != null) {
relayServer.stop();
}
if (ss != null) {
ss.close();
}
if (pipe_thread1 != null) {
pipe_thread1.interrupt();
}
if (pipe_thread2 != null) {
pipe_thread2.interrupt();
}
} catch (final IOException ioe) {
}
}
static final void log(final ProxyMessage msg) {
log.debug("Request version: {}, Command: ", msg.version,
command2String(msg.command));
final String user = msg.version == 4 ? ", User:" + msg.user : "";
log.debug("IP:" + msg.ip + ", Port:" + msg.port + user);
}
private void pipe(final InputStream in, final OutputStream out)
throws IOException {
lastReadTime = System.currentTimeMillis();
final byte[] buf = new byte[BUF_SIZE];
int len = 0;
while (len >= 0) {
try {
if (len != 0) {
out.write(buf, 0, len);
out.flush();
}
len = in.read(buf);
lastReadTime = System.currentTimeMillis();
} catch (final InterruptedIOException iioe) {
if (iddleTimeout == 0) {
return;// Other thread interrupted us.
}
final long timeSinceRead = System.currentTimeMillis()
- lastReadTime;
if (timeSinceRead >= iddleTimeout - 1000) {
return;
}
len = 0;
}
}
}
static final String command_names[] = { "CONNECT", "BIND", "UDP_ASSOCIATE" };
static final String command2String(int cmd) {
if ((cmd > 0) && (cmd < 4)) {
return command_names[cmd - 1];
} else {
return "Unknown Command " + cmd;
}
}
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.DataInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.UnknownHostException;
/**
* SOCKS4 Reply/Request message.
*/
class Socks4Message extends ProxyMessage {
private byte[] msgBytes;
private int msgLength;
/**
* Server failed reply, cmd command for failed request
*/
public Socks4Message(final int cmd) {
super(cmd, null, 0);
this.user = null;
msgLength = 2;
msgBytes = new byte[2];
msgBytes[0] = (byte) 0;
msgBytes[1] = (byte) command;
}
/**
* Server successfull reply
*/
public Socks4Message(final int cmd, final InetAddress ip, final int port) {
this(0, cmd, ip, port, null);
}
/**
* Client request
*/
public Socks4Message(final int cmd, final InetAddress ip, final int port,
final String user) {
this(SOCKS_VERSION, cmd, ip, port, user);
}
/**
* Most general constructor
*/
public Socks4Message(final int version, final int cmd,
final InetAddress ip, final int port, final String user) {
super(cmd, ip, port);
this.user = user;
this.version = version;
msgLength = user == null ? 8 : 9 + user.length();
msgBytes = new byte[msgLength];
msgBytes[0] = (byte) version;
msgBytes[1] = (byte) command;
msgBytes[2] = (byte) (port >> 8);
msgBytes[3] = (byte) port;
byte[] addr;
if (ip != null) {
addr = ip.getAddress();
} else {
addr = new byte[4];
addr[0] = addr[1] = addr[2] = addr[3] = 0;
}
System.arraycopy(addr, 0, msgBytes, 4, 4);
if (user != null) {
final byte[] buf = user.getBytes();
System.arraycopy(buf, 0, msgBytes, 8, buf.length);
msgBytes[msgBytes.length - 1] = 0;
}
}
/**
* Initialise from the stream If clientMode is true attempts to read a
* server response otherwise reads a client request see read for more detail
*/
public Socks4Message(final InputStream in, final boolean clientMode)
throws IOException {
msgBytes = null;
read(in, clientMode);
}
public void read(final InputStream in) throws IOException {
read(in, true);
}
public void read(final InputStream in, final boolean clientMode)
throws IOException {
final DataInputStream d_in = new DataInputStream(in);
version = d_in.readUnsignedByte();
command = d_in.readUnsignedByte();
if (clientMode && (command != REPLY_OK)) {
String errMsg;
// FIXME: Range should be replaced with cases.
if ((command > REPLY_OK) && (command < REPLY_BAD_IDENTD)) {
errMsg = replyMessage[command - REPLY_OK];
} else {
errMsg = "Unknown Reply Code";
}
throw new SocksException(command, errMsg);
}
port = d_in.readUnsignedShort();
final byte[] addr = new byte[4];
d_in.readFully(addr);
ip = bytes2IP(addr);
host = ip.getHostName();
if (!clientMode) {
int b = in.read();
// FIXME: Hope there are no idiots with user name bigger than this
final byte[] userBytes = new byte[256];
int i = 0;
for (i = 0; (i < userBytes.length) && (b > 0); ++i) {
userBytes[i] = (byte) b;
b = in.read();
}
user = new String(userBytes, 0, i);
}
}
public void write(final OutputStream out) throws IOException {
if (msgBytes == null) {
final Socks4Message msg;
msg = new Socks4Message(version, command, ip, port, user);
msgBytes = msg.msgBytes;
msgLength = msg.msgLength;
}
out.write(msgBytes);
}
// Class methods
static InetAddress bytes2IP(final byte[] addr) {
final String s = bytes2IPV4(addr, 0);
try {
return InetAddress.getByName(s);
} catch (final UnknownHostException uh_ex) {
return null;
}
}
// Constants
static final String[] replyMessage = { "Request Granted",
"Request Rejected or Failed",
"Failed request, can't connect to Identd",
"Failed request, bad user name" };
static final int SOCKS_VERSION = 4;
public final static int REQUEST_CONNECT = 1;
public final static int REQUEST_BIND = 2;
public final static int REPLY_OK = 90;
public final static int REPLY_REJECTED = 91;
public final static int REPLY_NO_CONNECT = 92;
public final static int REPLY_BAD_IDENTD = 93;
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.IOException;
import java.io.InputStream;
import java.net.InetAddress;
import java.net.UnknownHostException;
/**
* Proxy which describes SOCKS4 proxy.
*/
public class Socks4Proxy extends SocksProxyBase implements Cloneable {
// Data members
String user;
// Public Constructors
// ====================
/**
* Creates the SOCKS4 proxy
*
* @param p
* Proxy to use to connect to this proxy, allows proxy chaining.
* @param proxyHost
* Address of the proxy server.
* @param proxyPort
* Port of the proxy server
* @param user
* User name to use for identification purposes.
* @throws UnknownHostException
* If proxyHost can't be resolved.
*/
public Socks4Proxy(SocksProxyBase p, String proxyHost, int proxyPort,
String user) throws UnknownHostException {
super(p, proxyHost, proxyPort);
this.user = new String(user);
version = 4;
}
/**
* Creates the SOCKS4 proxy
*
* @param proxyHost
* Address of the proxy server.
* @param proxyPort
* Port of the proxy server
* @param user
* User name to use for identification purposes.
* @throws UnknownHostException
* If proxyHost can't be resolved.
*/
public Socks4Proxy(String proxyHost, int proxyPort, String user)
throws UnknownHostException {
this(null, proxyHost, proxyPort, user);
}
/**
* Creates the SOCKS4 proxy
*
* @param p
* Proxy to use to connect to this proxy, allows proxy chaining.
* @param proxyIP
* Address of the proxy server.
* @param proxyPort
* Port of the proxy server
* @param user
* User name to use for identification purposes.
*/
public Socks4Proxy(SocksProxyBase p, InetAddress proxyIP, int proxyPort,
String user) {
super(p, proxyIP, proxyPort);
this.user = new String(user);
version = 4;
}
/**
* Creates the SOCKS4 proxy
*
* @param proxyIP
* Address of the proxy server.
* @param proxyPort
* Port of the proxy server
* @param user
* User name to use for identification purposes.
*/
public Socks4Proxy(InetAddress proxyIP, int proxyPort, String user) {
this(null, proxyIP, proxyPort, user);
}
// Public instance methods
// ========================
/**
* Creates a clone of this proxy. Changes made to the clone should not
* affect this object.
*/
public Object clone() {
final Socks4Proxy newProxy = new Socks4Proxy(proxyIP, proxyPort, user);
newProxy.directHosts = (InetRange) directHosts.clone();
newProxy.chainProxy = chainProxy;
return newProxy;
}
// Public Static(Class) Methods
// ==============================
// Protected Methods
// =================
protected SocksProxyBase copy() {
final Socks4Proxy copy = new Socks4Proxy(proxyIP, proxyPort, user);
copy.directHosts = this.directHosts;
copy.chainProxy = chainProxy;
return copy;
}
protected ProxyMessage formMessage(int cmd, InetAddress ip, int port) {
switch (cmd) {
case SOCKS_CMD_CONNECT:
cmd = Socks4Message.REQUEST_CONNECT;
break;
case SOCKS_CMD_BIND:
cmd = Socks4Message.REQUEST_BIND;
break;
default:
return null;
}
return new Socks4Message(cmd, ip, port, user);
}
protected ProxyMessage formMessage(int cmd, String host, int port)
throws UnknownHostException {
return formMessage(cmd, InetAddress.getByName(host), port);
}
protected ProxyMessage formMessage(InputStream in) throws SocksException,
IOException {
return new Socks4Message(in, true);
}
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.ByteArrayInputStream;
import java.io.IOException;
import java.io.InterruptedIOException;
import java.net.DatagramPacket;
import java.net.DatagramSocket;
import java.net.InetAddress;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* Datagram socket to interract through the firewall.<BR>
* Can be used same way as the normal DatagramSocket. One should be carefull
* though with the datagram sizes used, as additional data is present in both
* incomming and outgoing datagrams.
* <p>
* SOCKS5 protocol allows to send host address as either:
* <ul>
* <li>IPV4, normal 4 byte address. (10 bytes header size)
* <li>IPV6, version 6 ip address (not supported by Java as for now). 22 bytes
* header size.
* <li>Host name,(7+length of the host name bytes header size).
* </ul>
* As with other Socks equivalents, direct addresses are handled transparently,
* that is data will be send directly when required by the proxy settings.
* <p>
* <b>NOTE:</b><br>
* Unlike other SOCKS Sockets, it <b>does not</b> support proxy chaining, and
* will throw an exception if proxy has a chain proxy attached. The reason for
* that is not my laziness, but rather the restrictions of the SOCKSv5 protocol.
* Basicaly SOCKSv5 proxy server, needs to know from which host:port datagrams
* will be send for association, and returns address to which datagrams should
* be send by the client, but it does not inform client from which host:port it
* is going to send datagrams, in fact there is even no guarantee they will be
* send at all and from the same address each time.
*/
public class Socks5DatagramSocket extends DatagramSocket {
InetAddress relayIP;
int relayPort;
Socks5Proxy proxy;
private boolean server_mode = false;
UDPEncapsulation encapsulation;
private Logger log = LoggerFactory.getLogger(Socks5DatagramSocket.class);
/**
* Construct Datagram socket for communication over SOCKS5 proxy server.
* This constructor uses default proxy, the one set with
* Proxy.setDefaultProxy() method. If default proxy is not set or it is set
* to version4 proxy, which does not support datagram forwarding, throws
* SocksException.
*/
public Socks5DatagramSocket() throws SocksException, IOException {
this(SocksProxyBase.defaultProxy, 0, null);
}
/**
* Construct Datagram socket for communication over SOCKS5 proxy server. And
* binds it to the specified local port. This constructor uses default
* proxy, the one set with Proxy.setDefaultProxy() method. If default proxy
* is not set or it is set to version4 proxy, which does not support
* datagram forwarding, throws SocksException.
*/
public Socks5DatagramSocket(int port) throws SocksException, IOException {
this(SocksProxyBase.defaultProxy, port, null);
}
/**
* Construct Datagram socket for communication over SOCKS5 proxy server. And
* binds it to the specified local port and address. This constructor uses
* default proxy, the one set with Proxy.setDefaultProxy() method. If
* default proxy is not set or it is set to version4 proxy, which does not
* support datagram forwarding, throws SocksException.
*/
public Socks5DatagramSocket(int port, InetAddress ip)
throws SocksException, IOException {
this(SocksProxyBase.defaultProxy, port, ip);
}
/**
* Constructs datagram socket for communication over specified proxy. And
* binds it to the given local address and port. Address of null and port of
* 0, signify any availabale port/address. Might throw SocksException, if:
* <ol>
* <li>Given version of proxy does not support UDP_ASSOCIATE.
* <li>Proxy can't be reached.
* <li>Authorization fails.
* <li>Proxy does not want to perform udp forwarding, for any reason.
* </ol>
* Might throw IOException if binding datagram socket to given address/port
* fails. See java.net.DatagramSocket for more details.
*/
public Socks5DatagramSocket(SocksProxyBase p, int port, InetAddress ip)
throws SocksException, IOException {
super(port, ip);
if (p == null) {
throw new SocksException(SocksProxyBase.SOCKS_NO_PROXY);
}
if (!(p instanceof Socks5Proxy)) {
final String s = "Datagram Socket needs Proxy version 5";
throw new SocksException(-1, s);
}
if (p.chainProxy != null) {
final String s = "Datagram Sockets do not support proxy chaining.";
throw new SocksException(SocksProxyBase.SOCKS_JUST_ERROR, s);
}
proxy = (Socks5Proxy) p.copy();
final ProxyMessage msg = proxy.udpAssociate(super.getLocalAddress(),
super.getLocalPort());
relayIP = msg.ip;
if (relayIP.getHostAddress().equals("0.0.0.0")) {
// FIXME: What happens here?
relayIP = proxy.proxyIP;
}
relayPort = msg.port;
encapsulation = proxy.udp_encapsulation;
log.debug("Datagram Socket:{}:{}", getLocalAddress(), getLocalPort());
log.debug("Socks5Datagram: {}:{}", relayIP, relayPort);
}
/**
* Used by UDPRelayServer.
*/
Socks5DatagramSocket(boolean server_mode, UDPEncapsulation encapsulation,
InetAddress relayIP, int relayPort) throws IOException {
super();
this.server_mode = server_mode;
this.relayIP = relayIP;
this.relayPort = relayPort;
this.encapsulation = encapsulation;
this.proxy = null;
}
/**
* Sends the Datagram either through the proxy or directly depending on
* current proxy settings and destination address. <BR>
*
* <B> NOTE: </B> DatagramPacket size should be at least 10 bytes less than
* the systems limit.
*
* <P>
* See documentation on java.net.DatagramSocket for full details on how to
* use this method.
*
* @param dp
* Datagram to send.
* @throws IOException
* If error happens with I/O.
*/
public void send(DatagramPacket dp) throws IOException {
// If the host should be accessed directly, send it as is.
if (!server_mode && proxy.isDirect(dp.getAddress())) {
super.send(dp);
log.debug("Sending datagram packet directly:");
return;
}
final byte[] head = formHeader(dp.getAddress(), dp.getPort());
byte[] buf = new byte[head.length + dp.getLength()];
final byte[] data = dp.getData();
// Merge head and data
System.arraycopy(head, 0, buf, 0, head.length);
// System.arraycopy(data,dp.getOffset(),buf,head.length,dp.getLength());
System.arraycopy(data, 0, buf, head.length, dp.getLength());
if (encapsulation != null) {
buf = encapsulation.udpEncapsulate(buf, true);
}
super.send(new DatagramPacket(buf, buf.length, relayIP, relayPort));
}
/**
* This method allows to send datagram packets with address type DOMAINNAME.
* SOCKS5 allows to specify host as names rather than ip addresses.Using
* this method one can send udp datagrams through the proxy, without having
* to know the ip address of the destination host.
* <p>
* If proxy specified for that socket has an option resolveAddrLocally set
* to true host will be resolved, and the datagram will be send with address
* type IPV4, if resolve fails, UnknownHostException is thrown.
*
* @param dp
* Datagram to send, it should contain valid port and data
* @param host
* Host name to which datagram should be send.
* @throws IOException
* If error happens with I/O, or the host can't be resolved when
* proxy settings say that hosts should be resolved locally.
* @see Socks5Proxy#resolveAddrLocally(boolean)
*/
public void send(DatagramPacket dp, String host) throws IOException {
if (proxy.isDirect(host)) {
dp.setAddress(InetAddress.getByName(host));
super.send(dp);
return;
}
if ((proxy).resolveAddrLocally) {
dp.setAddress(InetAddress.getByName(host));
}
final byte[] head = formHeader(host, dp.getPort());
byte[] buf = new byte[head.length + dp.getLength()];
final byte[] data = dp.getData();
// Merge head and data
System.arraycopy(head, 0, buf, 0, head.length);
// System.arraycopy(data,dp.getOffset(),buf,head.length,dp.getLength());
System.arraycopy(data, 0, buf, head.length, dp.getLength());
if (encapsulation != null) {
buf = encapsulation.udpEncapsulate(buf, true);
}
super.send(new DatagramPacket(buf, buf.length, relayIP, relayPort));
}
/**
* Receives udp packet. If packet have arrived from the proxy relay server,
* it is processed and address and port of the packet are set to the address
* and port of sending host.<BR>
* If the packet arrived from anywhere else it is not changed.<br>
* <B> NOTE: </B> DatagramPacket size should be at least 10 bytes bigger
* than the largest packet you expect (this is for IPV4 addresses). For
* hostnames and IPV6 it is even more.
*
* @param dp
* Datagram in which all relevent information will be copied.
*/
public void receive(DatagramPacket dp) throws IOException {
super.receive(dp);
if (server_mode) {
// Drop all datagrams not from relayIP/relayPort
final int init_length = dp.getLength();
final int initTimeout = getSoTimeout();
final long startTime = System.currentTimeMillis();
while (!relayIP.equals(dp.getAddress())
|| (relayPort != dp.getPort())) {
// Restore datagram size
dp.setLength(init_length);
// If there is a non-infinit timeout on this socket
// Make sure that it happens no matter how often unexpected
// packets arrive.
if (initTimeout != 0) {
final long passed = System.currentTimeMillis() - startTime;
final int newTimeout = initTimeout - (int) passed;
if (newTimeout <= 0) {
throw new InterruptedIOException(
"In Socks5DatagramSocket->receive()");
}
setSoTimeout(newTimeout);
}
super.receive(dp);
}
// Restore timeout settings
if (initTimeout != 0) {
setSoTimeout(initTimeout);
}
} else if (!relayIP.equals(dp.getAddress())
|| (relayPort != dp.getPort())) {
return; // Recieved direct packet
// If the datagram is not from the relay server, return it it as is.
}
byte[] data;
data = dp.getData();
if (encapsulation != null) {
data = encapsulation.udpEncapsulate(data, false);
}
// FIXME: What is this?
final int offset = 0; // Java 1.1
// int offset = dp.getOffset(); //Java 1.2
final ByteArrayInputStream bIn = new ByteArrayInputStream(data, offset,
dp.getLength());
final ProxyMessage msg = new Socks5Message(bIn);
dp.setPort(msg.port);
dp.setAddress(msg.getInetAddress());
// what wasn't read by the Message is the data
final int data_length = bIn.available();
// Shift data to the left
System.arraycopy(data, offset + dp.getLength() - data_length, data,
offset, data_length);
dp.setLength(data_length);
}
/**
* Returns port assigned by the proxy, to which datagrams are relayed. It is
* not the same port to which other party should send datagrams.
*
* @return Port assigned by socks server to which datagrams are send for
* association.
*/
public int getLocalPort() {
if (server_mode) {
return super.getLocalPort();
}
return relayPort;
}
/**
* Address assigned by the proxy, to which datagrams are send for relay. It
* is not necesseraly the same address, to which other party should send
* datagrams.
*
* @return Address to which datagrams are send for association.
*/
public InetAddress getLocalAddress() {
if (server_mode) {
return super.getLocalAddress();
}
return relayIP;
}
/**
* Closes datagram socket, and proxy connection.
*/
public void close() {
if (!server_mode) {
proxy.endSession();
}
super.close();
}
/**
* This method checks wether proxy still runs udp forwarding service for
* this socket.
* <p>
* This methods checks wether the primary connection to proxy server is
* active. If it is, chances are that proxy continues to forward datagrams
* being send from this socket. If it was closed, most likely datagrams are
* no longer being forwarded by the server.
* <p>
* Proxy might decide to stop forwarding datagrams, in which case it should
* close primary connection. This method allows to check, wether this have
* been done.
* <p>
* You can specify timeout for which we should be checking EOF condition on
* the primary connection. Timeout is in milliseconds. Specifying 0 as
* timeout implies infinity, in which case method will block, until
* connection to proxy is closed or an error happens, and then return false.
* <p>
* One possible scenario is to call isProxyactive(0) in separate thread, and
* once it returned notify other threads about this event.
*
* @param timeout
* For how long this method should block, before returning.
* @return true if connection to proxy is active, false if eof or error
* condition have been encountered on the connection.
*/
public boolean isProxyAlive(int timeout) {
if (server_mode) {
return false;
}
if (proxy != null) {
try {
proxy.proxySocket.setSoTimeout(timeout);
final int eof = proxy.in.read();
if (eof < 0) {
return false; // EOF encountered.
} else {
log.warn("This really should not happen");
return true; // This really should not happen
}
} catch (final InterruptedIOException iioe) {
return true; // read timed out.
} catch (final IOException ioe) {
return false;
}
}
return false;
}
// PRIVATE METHODS
// ////////////////
private byte[] formHeader(InetAddress ip, int port) {
final Socks5Message request = new Socks5Message(0, ip, port);
request.data[0] = 0;
return request.data;
}
private byte[] formHeader(String host, int port) {
final Socks5Message request = new Socks5Message(0, host, port);
request.data[0] = 0;
return request.data;
}
/*
* ======================================================================
*
* //Mainly Test functions //////////////////////
*
* private String bytes2String(byte[] b){ String s=""; char[] hex_digit = {
* '0','1','2','3','4','5','6','7','8','9', 'A','B','C','D','E','F'};
* for(int i=0;i<b.length;++i){ int i1 = (b[i] & 0xF0) >> 4; int i2 = b[i] &
* 0xF; s+=hex_digit[i1]; s+=hex_digit[i2]; s+=" "; } return s; } private
* static final void debug(String s){ if(DEBUG) System.out.print(s); }
*
* private static final boolean DEBUG = true;
*
*
* public static void usage(){ System.err.print(
* "Usage: java Socks.SocksDatagramSocket host port [socksHost socksPort]\n"
* ); }
*
* static final int defaultProxyPort = 1080; //Default Port static final
* String defaultProxyHost = "www-proxy"; //Default proxy
*
* public static void main(String args[]){ int port; String host; int
* proxyPort; String proxyHost; InetAddress ip;
*
* if(args.length > 1 && args.length < 5){ try{
*
* host = args[0]; port = Integer.parseInt(args[1]);
*
* proxyPort =(args.length > 3)? Integer.parseInt(args[3]) :
* defaultProxyPort;
*
* host = args[0]; ip = InetAddress.getByName(host);
*
* proxyHost =(args.length > 2)? args[2] : defaultProxyHost;
*
* Proxy.setDefaultProxy(proxyHost,proxyPort); Proxy p =
* Proxy.getDefaultProxy(); p.addDirect("lux");
*
*
* DatagramSocket ds = new Socks5DatagramSocket();
*
*
* BufferedReader in = new BufferedReader( new
* InputStreamReader(System.in)); String s;
*
* System.out.print("Enter line:"); s = in.readLine();
*
* while(s != null){ byte[] data = (s+"\r\n").getBytes(); DatagramPacket dp
* = new DatagramPacket(data,0,data.length, ip,port);
* System.out.println("Sending to: "+ip+":"+port); ds.send(dp); dp = new
* DatagramPacket(new byte[1024],1024);
*
* System.out.println("Trying to recieve on port:"+ ds.getLocalPort());
* ds.receive(dp); System.out.print("Recieved:\n"+
* "From:"+dp.getAddress()+":"+dp.getPort()+ "\n\n"+ new
* String(dp.getData(),dp.getOffset(),dp.getLength())+"\n" );
* System.out.print("Enter line:"); s = in.readLine();
*
* } ds.close(); System.exit(1);
*
* }catch(SocksException s_ex){ System.err.println("SocksException:"+s_ex);
* s_ex.printStackTrace(); System.exit(1); }catch(IOException io_ex){
* io_ex.printStackTrace(); System.exit(1); }catch(NumberFormatException
* num_ex){ usage(); num_ex.printStackTrace(); System.exit(1); }
*
* }else{ usage(); } }
*/
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.DataInputStream;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.UnknownHostException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* SOCKS5 request/response message.
*/
class Socks5Message extends ProxyMessage {
/** Address type of given message */
public int addrType;
byte[] data;
private Logger log = LoggerFactory.getLogger(Socks5Message.class);
/**
* Server error response.
*
* @param cmd
* Error code.
*/
public Socks5Message(int cmd) {
super(cmd, null, 0);
data = new byte[3];
data[0] = SOCKS_VERSION; // Version.
data[1] = (byte) cmd; // Reply code for some kind of failure.
data[2] = 0; // Reserved byte.
}
/**
* Construct client request or server response.
*
* @param cmd
* - Request/Response code.
* @param ip
* - IP field.
* @paarm port - port field.
*/
public Socks5Message(int cmd, InetAddress ip, int port) {
super(cmd, ip, port);
if (ip == null) {
this.host = "0.0.0.0";
} else {
this.host = ip.getHostName();
}
this.version = SOCKS_VERSION;
byte[] addr;
if (ip == null) {
addr = new byte[4];
addr[0] = addr[1] = addr[2] = addr[3] = 0;
} else {
addr = ip.getAddress();
}
if (addr.length == 4) {
addrType = SOCKS_ATYP_IPV4;
} else {
addrType = SOCKS_ATYP_IPV6;
}
data = new byte[6 + addr.length];
data[0] = (byte) SOCKS_VERSION; // Version
data[1] = (byte) command; // Command
data[2] = (byte) 0; // Reserved byte
data[3] = (byte) addrType; // Address type
// Put Address
System.arraycopy(addr, 0, data, 4, addr.length);
// Put port
data[data.length - 2] = (byte) (port >> 8);
data[data.length - 1] = (byte) (port);
}
/**
* Construct client request or server response.
*
* @param cmd
* - Request/Response code.
* @param hostName
* - IP field as hostName, uses ADDR_TYPE of HOSTNAME.
* @paarm port - port field.
*/
public Socks5Message(int cmd, String hostName, int port) {
super(cmd, null, port);
this.host = hostName;
this.version = SOCKS_VERSION;
log.debug("Doing ATYP_DOMAINNAME");
addrType = SOCKS_ATYP_DOMAINNAME;
final byte addr[] = hostName.getBytes();
data = new byte[7 + addr.length];
data[0] = (byte) SOCKS_VERSION; // Version
data[1] = (byte) command; // Command
data[2] = (byte) 0; // Reserved byte
data[3] = (byte) SOCKS_ATYP_DOMAINNAME; // Address type
data[4] = (byte) addr.length; // Length of the address
// Put Address
System.arraycopy(addr, 0, data, 5, addr.length);
// Put port
data[data.length - 2] = (byte) (port >> 8);
data[data.length - 1] = (byte) (port);
}
/**
* Initialises Message from the stream. Reads server response from given
* stream.
*
* @param in
* Input stream to read response from.
* @throws SocksException
* If server response code is not SOCKS_SUCCESS(0), or if any
* error with protocol occurs.
* @throws IOException
* If any error happens with I/O.
*/
public Socks5Message(InputStream in) throws SocksException, IOException {
this(in, true);
}
/**
* Initialises Message from the stream. Reads server response or client
* request from given stream.
*
* @param in
* Input stream to read response from.
* @param clinetMode
* If true read server response, else read client request.
* @throws SocksException
* If server response code is not SOCKS_SUCCESS(0) and reading
* in client mode, or if any error with protocol occurs.
* @throws IOException
* If any error happens with I/O.
*/
public Socks5Message(InputStream in, boolean clientMode)
throws SocksException, IOException {
read(in, clientMode);
}
/**
* Initialises Message from the stream. Reads server response from given
* stream.
*
* @param in
* Input stream to read response from.
* @throws SocksException
* If server response code is not SOCKS_SUCCESS(0), or if any
* error with protocol occurs.
* @throws IOException
* If any error happens with I/O.
*/
public void read(InputStream in) throws SocksException, IOException {
read(in, true);
}
/**
* Initialises Message from the stream. Reads server response or client
* request from given stream.
*
* @param in
* Input stream to read response from.
* @param clinetMode
* If true read server response, else read client request.
* @throws SocksException
* If server response code is not SOCKS_SUCCESS(0) and reading
* in client mode, or if any error with protocol occurs.
* @throws IOException
* If any error happens with I/O.
*/
public void read(InputStream in, boolean clientMode) throws SocksException,
IOException {
data = null;
ip = null;
final DataInputStream di = new DataInputStream(in);
version = di.readUnsignedByte();
command = di.readUnsignedByte();
if (clientMode && (command != 0)) {
throw new SocksException(command);
}
di.readUnsignedByte();
addrType = di.readUnsignedByte();
byte addr[];
switch (addrType) {
case SOCKS_ATYP_IPV4:
addr = new byte[4];
di.readFully(addr);
host = bytes2IPV4(addr, 0);
break;
case SOCKS_ATYP_IPV6:
addr = new byte[SOCKS_IPV6_LENGTH];// I believe it is 16 bytes,huge!
di.readFully(addr);
host = bytes2IPV6(addr, 0);
break;
case SOCKS_ATYP_DOMAINNAME:
log.debug("Reading ATYP_DOMAINNAME");
addr = new byte[di.readUnsignedByte()];// Next byte shows the length
di.readFully(addr);
host = new String(addr);
break;
default:
throw (new SocksException(SocksProxyBase.SOCKS_JUST_ERROR));
}
port = di.readUnsignedShort();
if ((addrType != SOCKS_ATYP_DOMAINNAME) && doResolveIP) {
try {
ip = InetAddress.getByName(host);
} catch (final UnknownHostException uh_ex) {
}
}
}
/**
* Writes the message to the stream.
*
* @param out
* Output stream to which message should be written.
*/
public void write(OutputStream out) throws SocksException, IOException {
if (data == null) {
Socks5Message msg;
if (addrType == SOCKS_ATYP_DOMAINNAME) {
msg = new Socks5Message(command, host, port);
} else {
if (ip == null) {
try {
ip = InetAddress.getByName(host);
} catch (final UnknownHostException uh_ex) {
throw new SocksException(
SocksProxyBase.SOCKS_JUST_ERROR);
}
}
msg = new Socks5Message(command, ip, port);
}
data = msg.data;
}
out.write(data);
}
/**
* Returns IP field of the message as IP, if the message was created with
* ATYP of HOSTNAME, it will attempt to resolve the hostname, which might
* fail.
*
* @throws UnknownHostException
* if host can't be resolved.
*/
public InetAddress getInetAddress() throws UnknownHostException {
if (ip != null) {
return ip;
}
return (ip = InetAddress.getByName(host));
}
/**
* Returns string representation of the message.
*/
public String toString() {
// FIXME: Single line version, please.
final String s = "Socks5Message:" + "\n" + "VN " + version + "\n"
+ "CMD " + command + "\n" + "ATYP " + addrType + "\n"
+ "ADDR " + host + "\n" + "PORT " + port + "\n";
return s;
}
/**
*Wether to resolve hostIP returned from SOCKS server that is wether to
* create InetAddress object from the hostName string
*/
static public boolean resolveIP() {
return doResolveIP;
}
/**
*Wether to resolve hostIP returned from SOCKS server that is wether to
* create InetAddress object from the hostName string
*
* @param doResolve
* Wether to resolve hostIP from SOCKS server.
*@return Previous value.
*/
static public boolean resolveIP(boolean doResolve) {
final boolean old = doResolveIP;
doResolveIP = doResolve;
return old;
}
/*
* private static final void debug(String s){ if(DEBUG) System.out.print(s);
* } private static final boolean DEBUG = false;
*/
// SOCKS5 constants
public static final int SOCKS_VERSION = 5;
public static final int SOCKS_ATYP_IPV4 = 0x1; // Where is 2??
public static final int SOCKS_ATYP_DOMAINNAME = 0x3; // !!!!rfc1928
public static final int SOCKS_ATYP_IPV6 = 0x4;
public static final int SOCKS_IPV6_LENGTH = 16;
static boolean doResolveIP = true;
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.Socket;
import java.net.SocketException;
import java.net.UnknownHostException;
import java.util.Enumeration;
import java.util.Hashtable;
/**
* SOCKS5 Proxy.
*/
public class Socks5Proxy extends SocksProxyBase implements Cloneable {
// Data members
private Hashtable<Integer, Authentication> authMethods = new Hashtable<Integer, Authentication>();
private int selectedMethod;
boolean resolveAddrLocally = true;
UDPEncapsulation udp_encapsulation = null;
// Public Constructors
// ====================
/**
* Creates SOCKS5 proxy.
*
* @param p
* Proxy to use to connect to this proxy, allows proxy chaining.
* @param proxyHost
* Host on which a Proxy server runs.
* @param proxyPort
* Port on which a Proxy server listens for connections.
* @throws UnknownHostException
* If proxyHost can't be resolved.
*/
public Socks5Proxy(SocksProxyBase p, String proxyHost, int proxyPort)
throws UnknownHostException {
super(p, proxyHost, proxyPort);
version = 5;
setAuthenticationMethod(0, new AuthenticationNone());
}
/**
* Creates SOCKS5 proxy.
*
* @param proxyHost
* Host on which a Proxy server runs.
* @param proxyPort
* Port on which a Proxy server listens for connections.
* @throws UnknownHostException
* If proxyHost can't be resolved.
*/
public Socks5Proxy(String proxyHost, int proxyPort)
throws UnknownHostException {
this(null, proxyHost, proxyPort);
}
/**
* Creates SOCKS5 proxy.
*
* @param p
* Proxy to use to connect to this proxy, allows proxy chaining.
* @param proxyIP
* Host on which a Proxy server runs.
* @param proxyPort
* Port on which a Proxy server listens for connections.
*/
public Socks5Proxy(SocksProxyBase p, InetAddress proxyIP, int proxyPort) {
super(p, proxyIP, proxyPort);
version = 5;
setAuthenticationMethod(0, new AuthenticationNone());
}
/**
* Creates SOCKS5 proxy.
*
* @param proxyIP
* Host on which a Proxy server runs.
* @param proxyPort
* Port on which a Proxy server listens for connections.
*/
public Socks5Proxy(InetAddress proxyIP, int proxyPort) {
this(null, proxyIP, proxyPort);
}
// Public instance methods
// ========================
/**
* Wether to resolve address locally or to let proxy do so.
* <p>
* SOCKS5 protocol allows to send host names rather then IPs in the
* requests, this option controls wether the hostnames should be send to the
* proxy server as names, or should they be resolved locally.
*
* @param doResolve
* Wether to perform resolution locally.
* @return Previous settings.
*/
public boolean resolveAddrLocally(boolean doResolve) {
final boolean old = resolveAddrLocally;
resolveAddrLocally = doResolve;
return old;
}
/**
* Get current setting on how the addresses should be handled.
*
* @return Current setting for address resolution.
* @see Socks5Proxy#resolveAddrLocally(boolean doResolve)
*/
public boolean resolveAddrLocally() {
return resolveAddrLocally;
}
/**
* Adds another authentication method.
*
* @param methodId
* Authentication method id, see rfc1928
* @param method
* Implementation of Authentication
* @see Authentication
*/
public boolean setAuthenticationMethod(int methodId, Authentication method) {
if ((methodId < 0) || (methodId > 255)) {
return false;
}
if (method == null) {
// Want to remove a particular method
return (authMethods.remove(new Integer(methodId)) != null);
} else {// Add the method, or rewrite old one
authMethods.put(new Integer(methodId), method);
}
return true;
}
/**
* Get authentication method, which corresponds to given method id
*
* @param methodId
* Authentication method id.
* @return Implementation for given method or null, if one was not set.
*/
public Authentication getAuthenticationMethod(int methodId) {
final Object method = authMethods.get(new Integer(methodId));
if (method == null) {
return null;
}
return (Authentication) method;
}
/**
* Creates a clone of this Proxy. clone() returns an
*/
@SuppressWarnings("unchecked")
public Object clone() {
final Socks5Proxy newProxy = new Socks5Proxy(proxyIP, proxyPort);
final Object o = this.authMethods.clone();
newProxy.authMethods = (Hashtable<Integer, Authentication>) o;
newProxy.directHosts = (InetRange) directHosts.clone();
newProxy.resolveAddrLocally = resolveAddrLocally;
newProxy.chainProxy = chainProxy;
return newProxy;
}
// Public Static(Class) Methods
// ==============================
// Protected Methods
// =================
protected SocksProxyBase copy() {
final Socks5Proxy copy = new Socks5Proxy(proxyIP, proxyPort);
copy.authMethods = this.authMethods; // same Hash, no copy
copy.directHosts = this.directHosts;
copy.chainProxy = this.chainProxy;
copy.resolveAddrLocally = this.resolveAddrLocally;
return copy;
}
/**
*
*
*/
protected void startSession() throws SocksException {
super.startSession();
Authentication auth;
final Socket ps = proxySocket; // The name is too long
try {
final byte nMethods = (byte) authMethods.size(); // Number of
// methods
final byte[] buf = new byte[2 + nMethods]; // 2 is for VER,NMETHODS
buf[0] = (byte) version;
buf[1] = nMethods; // Number of methods
int i = 2;
final Enumeration<Integer> ids = authMethods.keys();
while (ids.hasMoreElements()) {
buf[i++] = (byte) ids.nextElement().intValue();
}
out.write(buf);
out.flush();
final int versionNumber = in.read();
selectedMethod = in.read();
if ((versionNumber < 0) || (selectedMethod < 0)) {
// EOF condition was reached
endSession();
final String s = "Connection to proxy lost.";
throw new SocksException(SOCKS_PROXY_IO_ERROR, s);
}
if (versionNumber < version) {
// What should we do??
}
if (selectedMethod == 0xFF) { // No method selected
ps.close();
throw (new SocksException(SOCKS_AUTH_NOT_SUPPORTED));
}
auth = getAuthenticationMethod(selectedMethod);
if (auth == null) {
// This shouldn't happen, unless method was removed by other
// thread, or the server stuffed up
final String s = "Specified Authentication not found!";
throw new SocksException(SOCKS_JUST_ERROR, s);
}
final Object[] in_out;
in_out = auth.doSocksAuthentication(selectedMethod, ps);
if (in_out == null) {
// Authentication failed by some reason
throw (new SocksException(SOCKS_AUTH_FAILURE));
}
/*
* Most authentication methods are expected to return simply the
* input/output streams associated with the socket. However if the
* auth. method requires some kind of encryption/decryption being
* done on the connection it should provide classes to handle I/O.
*/
in = (InputStream) in_out[0];
out = (OutputStream) in_out[1];
if (in_out.length > 2) {
udp_encapsulation = (UDPEncapsulation) in_out[2];
}
} catch (final SocksException s_ex) {
throw s_ex;
} catch (final UnknownHostException uh_ex) {
throw new SocksException(SOCKS_PROXY_NO_CONNECT, uh_ex);
} catch (final SocketException so_ex) {
throw new SocksException(SOCKS_PROXY_NO_CONNECT, so_ex);
} catch (final IOException io_ex) {
throw new SocksException(SOCKS_PROXY_IO_ERROR, io_ex);
}
}
protected ProxyMessage formMessage(int cmd, InetAddress ip, int port) {
return new Socks5Message(cmd, ip, port);
}
protected ProxyMessage formMessage(int cmd, String host, int port)
throws UnknownHostException {
if (resolveAddrLocally) {
return formMessage(cmd, InetAddress.getByName(host), port);
} else {
return new Socks5Message(cmd, host, port);
}
}
protected ProxyMessage formMessage(InputStream in) throws SocksException,
IOException {
return new Socks5Message(in);
}
}

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package com.runjva.sourceforge.jsocks.protocol;
/**
* Exception thrown by various socks classes to indicate errors with protocol or
* unsuccessfull server responses.
*/
public class SocksException extends java.io.IOException {
/**
*
*/
private static final long serialVersionUID = 1L;
/**
* Construct a SocksException with given errorcode.
* <p>
* Tries to look up message which corresponds to this error code.
*
* @param errCode
* Error code for this exception.
*/
public SocksException(int errCode) {
this.errCode = errCode;
lookupErrorString(errCode);
}
private void lookupErrorString(int errCode) {
if ((errCode >> 16) == 0) {
if (errCode <= serverReplyMessage.length) {
errString = serverReplyMessage[errCode];
} else {
errString = UNASSIGNED_ERROR_MESSAGE;
}
} else {
// Local error
errCode = (errCode >> 16) - 1;
if (errCode <= localErrorMessage.length) {
errString = localErrorMessage[errCode];
} else {
errString = UNASSIGNED_ERROR_MESSAGE;
}
}
}
/**
* Construct a SocksException with given error code, and a Throwable cause
*
* @param errCode
* @param t
* Nested exception for debugging purposes.
*/
public SocksException(int errCode, Throwable t) {
super(t); // Java 1.6+
this.errCode = errCode;
lookupErrorString(errCode);
}
/**
* Constructs a SocksException with given error code and message.
*
* @param errCode
* Error code.
* @param errString
* Error Message.
*/
public SocksException(int errCode, String errString) {
this.errCode = errCode;
this.errString = errString;
}
public SocksException(int errCode, String string, Throwable t) {
super(string, t); // Java 1.6+
this.errCode = errCode;
this.errString = string;
}
/**
* Get the error code associated with this exception.
*
* @return Error code associated with this exception.
*/
public int getErrorCode() {
return errCode;
}
/**
* Get human readable representation of this exception.
*
* @return String represntation of this exception.
*/
public String toString() {
return errString;
}
static final String UNASSIGNED_ERROR_MESSAGE = "Unknown error message";
static final String serverReplyMessage[] = { "Succeeded",
"General SOCKS server failure",
"Connection not allowed by ruleset", "Network unreachable",
"Host unreachable", "Connection refused", "TTL expired",
"Command not supported", "Address type not supported" };
static final String localErrorMessage[] = { "SOCKS server not specified",
"Unable to contact SOCKS server", "IO error",
"None of Authentication methods are supported",
"Authentication failed", "General SOCKS fault" };
String errString;
int errCode;
}// End of SocksException class

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.IOException;
import java.io.InputStream;
import java.io.InterruptedIOException;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.Socket;
import java.net.UnknownHostException;
/**
* Abstract class Proxy, base for classes Socks4Proxy and Socks5Proxy. Defines
* methods for specifying default proxy, to be used by all classes of this
* package.
*/
public abstract class SocksProxyBase {
// Data members
protected InetRange directHosts = new InetRange();
protected InetAddress proxyIP = null;
protected String proxyHost = null;
protected int proxyPort;
protected Socket proxySocket = null;
protected InputStream in;
protected OutputStream out;
protected int version;
protected SocksProxyBase chainProxy = null;
// Protected static/class variables
protected static SocksProxyBase defaultProxy = null;
// Constructors
// ====================
SocksProxyBase(SocksProxyBase chainProxy, String proxyHost, int proxyPort)
throws UnknownHostException {
this.chainProxy = chainProxy;
this.proxyHost = proxyHost;
if (chainProxy == null) {
this.proxyIP = InetAddress.getByName(proxyHost);
}
this.proxyPort = proxyPort;
}
SocksProxyBase(String proxyHost, int proxyPort) throws UnknownHostException {
this(null, proxyHost, proxyPort);
}
SocksProxyBase(SocksProxyBase chainProxy, InetAddress proxyIP, int proxyPort) {
this.chainProxy = chainProxy;
this.proxyIP = proxyIP;
this.proxyPort = proxyPort;
}
SocksProxyBase(InetAddress proxyIP, int proxyPort) {
this(null, proxyIP, proxyPort);
}
SocksProxyBase(SocksProxyBase p) {
this.proxyIP = p.proxyIP;
this.proxyPort = p.proxyPort;
this.version = p.version;
this.directHosts = p.directHosts;
}
// Public instance methods
// ========================
/**
* Get the port on which proxy server is running.
*
* @return Proxy port.
*/
public int getPort() {
return proxyPort;
}
/**
* Get the ip address of the proxy server host.
*
* @return Proxy InetAddress.
*/
public InetAddress getInetAddress() {
return proxyIP;
}
/**
* Adds given ip to the list of direct addresses. This machine will be
* accessed without using proxy.
*/
public void addDirect(InetAddress ip) {
directHosts.add(ip);
}
/**
* Adds host to the list of direct addresses. This machine will be accessed
* without using proxy.
*/
public boolean addDirect(String host) {
return directHosts.add(host);
}
/**
* Adds given range of addresses to the lsit of direct addresses, machines
* within this range will be accessed without using proxy.
*/
public void addDirect(InetAddress from, InetAddress to) {
directHosts.add(from, to);
}
/**
* Sets given InetRange as the list of direct address, previous list will be
* discarded, any changes done previously with addDirect(Inetaddress) will
* be lost. The machines in this range will be accessed without using proxy.
*
* @param ir
* InetRange which should be used to look up direct addresses.
* @see InetRange
*/
public void setDirect(InetRange ir) {
directHosts = ir;
}
/**
* Get the list of direct hosts.
*
* @return Current range of direct address as InetRange object.
* @see InetRange
*/
public InetRange getDirect() {
return directHosts;
}
/**
* Check wether the given host is on the list of direct address.
*
* @param host
* Host name to check.
* @return true if the given host is specified as the direct addresses.
*/
public boolean isDirect(String host) {
return directHosts.contains(host);
}
/**
* Check wether the given host is on the list of direct addresses.
*
* @param host
* Host address to check.
* @return true if the given host is specified as the direct address.
*/
public boolean isDirect(InetAddress host) {
return directHosts.contains(host);
}
/**
* Set the proxy which should be used to connect to given proxy.
*
* @param chainProxy
* Proxy to use to connect to this proxy.
*/
public void setChainProxy(SocksProxyBase chainProxy) {
this.chainProxy = chainProxy;
}
/**
* Get proxy which is used to connect to this proxy.
*
* @return Proxy which is used to connect to this proxy, or null if proxy is
* to be contacted directly.
*/
public SocksProxyBase getChainProxy() {
return chainProxy;
}
/**
* Get string representation of this proxy.
*
* @returns string in the form:proxyHost:proxyPort \t Version versionNumber
*/
public String toString() {
return ("" + proxyIP.getHostName() + ":" + proxyPort + "\tVersion " + version);
}
// Public Static(Class) Methods
// ==============================
/**
* Sets SOCKS4 proxy as default.
*
* @param hostName
* Host name on which SOCKS4 server is running.
* @param port
* Port on which SOCKS4 server is running.
* @param user
* Username to use for communications with proxy.
*/
public static void setDefaultProxy(String hostName, int port, String user)
throws UnknownHostException {
defaultProxy = new Socks4Proxy(hostName, port, user);
}
/**
* Sets SOCKS4 proxy as default.
*
* @param ipAddress
* Host address on which SOCKS4 server is running.
* @param port
* Port on which SOCKS4 server is running.
* @param user
* Username to use for communications with proxy.
*/
public static void setDefaultProxy(InetAddress ipAddress, int port,
String user) {
defaultProxy = new Socks4Proxy(ipAddress, port, user);
}
/**
* Sets SOCKS5 proxy as default. Default proxy only supports
* no-authentication.
*
* @param hostName
* Host name on which SOCKS5 server is running.
* @param port
* Port on which SOCKS5 server is running.
*/
public static void setDefaultProxy(String hostName, int port)
throws UnknownHostException {
defaultProxy = new Socks5Proxy(hostName, port);
}
/**
* Sets SOCKS5 proxy as default. Default proxy only supports
* no-authentication.
*
* @param ipAddress
* Host address on which SOCKS5 server is running.
* @param port
* Port on which SOCKS5 server is running.
*/
public static void setDefaultProxy(InetAddress ipAddress, int port) {
defaultProxy = new Socks5Proxy(ipAddress, port);
}
/**
* Sets default proxy.
*
* @param p
* Proxy to use as default proxy.
*/
public static void setDefaultProxy(SocksProxyBase p) {
defaultProxy = p;
}
/**
* Get current default proxy.
*
* @return Current default proxy, or null if none is set.
*/
public static SocksProxyBase getDefaultProxy() {
return defaultProxy;
}
/**
* Parses strings in the form: host[:port:user:password], and creates proxy
* from information obtained from parsing.
* <p>
* Defaults: port = 1080.<br>
* If user specified but not password, creates Socks4Proxy, if user not
* specified creates Socks5Proxy, if both user and password are speciefied
* creates Socks5Proxy with user/password authentication.
*
* @param proxy_entry
* String in the form host[:port:user:password]
* @return Proxy created from the string, null if entry was somehow
* invalid(host unknown for example, or empty string)
*/
public static SocksProxyBase parseProxy(String proxy_entry) {
String proxy_host;
int proxy_port = 1080;
String proxy_user = null;
String proxy_password = null;
SocksProxyBase proxy;
final java.util.StringTokenizer st = new java.util.StringTokenizer(
proxy_entry, ":");
if (st.countTokens() < 1) {
return null;
}
proxy_host = st.nextToken();
if (st.hasMoreTokens()) {
try {
proxy_port = Integer.parseInt(st.nextToken().trim());
} catch (final NumberFormatException nfe) {
}
}
if (st.hasMoreTokens()) {
proxy_user = st.nextToken();
}
if (st.hasMoreTokens()) {
proxy_password = st.nextToken();
}
try {
if (proxy_user == null) {
proxy = new Socks5Proxy(proxy_host, proxy_port);
} else if (proxy_password == null) {
proxy = new Socks4Proxy(proxy_host, proxy_port, proxy_user);
} else {
proxy = new Socks5Proxy(proxy_host, proxy_port);
final UserPasswordAuthentication upa = new UserPasswordAuthentication(
proxy_user, proxy_password);
((Socks5Proxy) proxy).setAuthenticationMethod(
UserPasswordAuthentication.METHOD_ID, upa);
}
} catch (final UnknownHostException uhe) {
return null;
}
return proxy;
}
// Protected Methods
// =================
protected void startSession() throws SocksException {
try {
if (chainProxy == null) {
proxySocket = new Socket(proxyIP, proxyPort);
} else if (proxyIP != null) {
proxySocket = new SocksSocket(chainProxy, proxyIP, proxyPort);
} else {
proxySocket = new SocksSocket(chainProxy, proxyHost, proxyPort);
}
in = proxySocket.getInputStream();
out = proxySocket.getOutputStream();
} catch (final SocksException se) {
throw se;
} catch (final IOException io_ex) {
throw new SocksException(SOCKS_PROXY_IO_ERROR, "" + io_ex);
}
}
/**
* Create a copy of this proxy for use by individual threads.
*
* @return proxy
*/
protected abstract SocksProxyBase copy();
protected abstract ProxyMessage formMessage(int cmd, InetAddress ip,
int port);
protected abstract ProxyMessage formMessage(int cmd, String host, int port)
throws UnknownHostException;
protected abstract ProxyMessage formMessage(InputStream in)
throws SocksException, IOException;
protected ProxyMessage connect(InetAddress ip, int port)
throws SocksException {
try {
startSession();
final ProxyMessage request = formMessage(SOCKS_CMD_CONNECT, ip,
port);
return exchange(request);
} catch (final SocksException se) {
endSession();
throw se;
}
}
protected ProxyMessage connect(String host, int port)
throws UnknownHostException, SocksException {
try {
startSession();
final ProxyMessage request = formMessage(SOCKS_CMD_CONNECT, host,
port);
return exchange(request);
} catch (final SocksException se) {
endSession();
throw se;
}
}
protected ProxyMessage bind(InetAddress ip, int port) throws SocksException {
try {
startSession();
final ProxyMessage request = formMessage(SOCKS_CMD_BIND, ip, port);
return exchange(request);
} catch (final SocksException se) {
endSession();
throw se;
}
}
protected ProxyMessage bind(String host, int port)
throws UnknownHostException, SocksException {
try {
startSession();
final ProxyMessage request = formMessage(SOCKS_CMD_BIND, host, port);
return exchange(request);
} catch (final SocksException se) {
endSession();
throw se;
}
}
protected ProxyMessage accept() throws IOException, SocksException {
ProxyMessage msg;
try {
msg = formMessage(in);
} catch (final InterruptedIOException iioe) {
throw iioe;
} catch (final IOException io_ex) {
endSession();
throw new SocksException(SOCKS_PROXY_IO_ERROR,
"While Trying accept:" + io_ex);
}
return msg;
}
protected ProxyMessage udpAssociate(InetAddress ip, int port)
throws SocksException {
try {
startSession();
final ProxyMessage request = formMessage(SOCKS_CMD_UDP_ASSOCIATE,
ip, port);
if (request != null) {
return exchange(request);
}
} catch (final SocksException se) {
endSession();
throw se;
}
// Only get here if request was null
endSession();
throw new SocksException(SOCKS_METHOD_NOTSUPPORTED,
"This version of proxy does not support UDP associate, use version 5");
}
protected ProxyMessage udpAssociate(String host, int port)
throws UnknownHostException, SocksException {
try {
startSession();
final ProxyMessage request = formMessage(SOCKS_CMD_UDP_ASSOCIATE,
host, port);
if (request != null) {
return exchange(request);
}
} catch (final SocksException se) {
endSession();
throw se;
}
// Only get here if request was null
endSession();
throw new SocksException(SOCKS_METHOD_NOTSUPPORTED,
"This version of proxy does not support UDP associate, use version 5");
}
protected void endSession() {
try {
if (proxySocket != null) {
proxySocket.close();
}
proxySocket = null;
} catch (final IOException io_ex) {
}
}
/**
*Sends the request to SOCKS server
*/
protected void sendMsg(ProxyMessage msg) throws SocksException, IOException {
msg.write(out);
}
/**
* Reads the reply from the SOCKS server
*/
protected ProxyMessage readMsg() throws SocksException, IOException {
return formMessage(in);
}
/**
*Sends the request reads reply and returns it throws exception if
* something wrong with IO or the reply code is not zero
*/
protected ProxyMessage exchange(ProxyMessage request) throws SocksException {
ProxyMessage reply;
try {
request.write(out);
reply = formMessage(in);
} catch (final SocksException s_ex) {
throw s_ex;
} catch (final IOException ioe) {
throw (new SocksException(SOCKS_PROXY_IO_ERROR, "" + ioe));
}
return reply;
}
// Private methods
// ===============
// Constants
public static final int SOCKS_SUCCESS = 0;
public static final int SOCKS_FAILURE = 1;
public static final int SOCKS_BADCONNECT = 2;
public static final int SOCKS_BADNETWORK = 3;
public static final int SOCKS_HOST_UNREACHABLE = 4;
public static final int SOCKS_CONNECTION_REFUSED = 5;
public static final int SOCKS_TTL_EXPIRE = 6;
public static final int SOCKS_CMD_NOT_SUPPORTED = 7;
public static final int SOCKS_ADDR_NOT_SUPPORTED = 8;
public static final int SOCKS_NO_PROXY = 1 << 16;
public static final int SOCKS_PROXY_NO_CONNECT = 2 << 16;
public static final int SOCKS_PROXY_IO_ERROR = 3 << 16;
public static final int SOCKS_AUTH_NOT_SUPPORTED = 4 << 16;
public static final int SOCKS_AUTH_FAILURE = 5 << 16;
public static final int SOCKS_JUST_ERROR = 6 << 16;
public static final int SOCKS_DIRECT_FAILED = 7 << 16;
public static final int SOCKS_METHOD_NOTSUPPORTED = 8 << 16;
static final int SOCKS_CMD_CONNECT = 0x1;
static final int SOCKS_CMD_BIND = 0x2;
static final int SOCKS_CMD_UDP_ASSOCIATE = 0x3;
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.IOException;
import java.net.InetAddress;
import java.net.ServerSocket;
import java.net.Socket;
import java.net.SocketException;
import java.net.UnknownHostException;
/**
* SocksServerSocket allows to accept connections from one particular host
* through the SOCKS4 or SOCKS5 proxy.
*/
public class SocksServerSocket extends ServerSocket {
// Data members
protected SocksProxyBase proxy;
protected String localHost;
protected InetAddress localIP;
protected int localPort;
boolean doing_direct = false;
InetAddress remoteAddr;
/**
* Creates ServerSocket capable of accepting one connection through the
* firewall, uses default Proxy.
*
* @param host
* Host from which the connection should be recieved.
*@param port
* Port number of the primary connection.
*/
public SocksServerSocket(String host, int port) throws SocksException,
UnknownHostException, IOException {
this(SocksProxyBase.defaultProxy, host, port);
}
/**
*Creates ServerSocket capable of accepting one connection through the
* firewall, uses given proxy.
*
* @param p
* Proxy object to use.
*@param host
* Host from which the connection should be recieved.
*@param port
* Port number of the primary connection.
*/
public SocksServerSocket(SocksProxyBase p, String host, int port)
throws SocksException, UnknownHostException, IOException {
super(0);
if (p == null) {
throw new SocksException(SocksProxyBase.SOCKS_NO_PROXY);
}
// proxy=p;
proxy = p.copy();
if (proxy.isDirect(host)) {
remoteAddr = InetAddress.getByName(host);
proxy = null;
doDirect();
} else {
processReply(proxy.bind(host, port));
}
}
/**
* Creates ServerSocket capable of accepting one connection through the
* firewall, uses default Proxy.
*
* @param ip
* Host from which the connection should be recieved.
*@param port
* Port number of the primary connection.
*/
public SocksServerSocket(InetAddress ip, int port) throws SocksException,
IOException {
this(SocksProxyBase.defaultProxy, ip, port);
}
/**
*Creates ServerSocket capable of accepting one connection through the
* firewall, uses given proxy.
*
* @param p
* Proxy object to use.
*@param ip
* Host from which the connection should be recieved.
*@param port
* Port number of the primary connection.
*/
public SocksServerSocket(SocksProxyBase p, InetAddress ip, int port)
throws SocksException, IOException {
super(0);
if (p == null) {
throw new SocksException(SocksProxyBase.SOCKS_NO_PROXY);
}
this.proxy = p.copy();
if (proxy.isDirect(ip)) {
remoteAddr = ip;
doDirect();
} else {
processReply(proxy.bind(ip, port));
}
}
/**
* Accepts the incoming connection.
*/
public Socket accept() throws IOException {
Socket s;
if (!doing_direct) {
if (proxy == null) {
return null;
}
final ProxyMessage msg = proxy.accept();
s = msg.ip == null ? new SocksSocket(msg.host, msg.port, proxy)
: new SocksSocket(msg.ip, msg.port, proxy);
// Set timeout back to 0
proxy.proxySocket.setSoTimeout(0);
if (ProxyServer.vpnService != null)
ProxyServer.vpnService.protect(proxy.proxySocket);
} else { // Direct Connection
// Mimic the proxy behaviour,
// only accept connections from the speciefed host.
while (true) {
s = super.accept();
if (s.getInetAddress().equals(remoteAddr)) {
// got the connection from the right host
// Close listenning socket.
break;
} else {
s.close(); // Drop all connections from other hosts
}
}
}
proxy = null;
// Return accepted socket
return s;
}
/**
* Closes the connection to proxy if socket have not been accepted, if the
* direct connection is used, closes direct ServerSocket. If the client
* socket have been allready accepted, does nothing.
*/
public void close() throws IOException {
super.close();
if (proxy != null) {
proxy.endSession();
}
proxy = null;
}
/**
* Get the name of the host proxy is using to listen for incoming
* connection.
* <P>
* Usefull when address is returned by proxy as the hostname.
*
* @return the hostname of the address proxy is using to listen for incoming
* connection.
*/
public String getHost() {
return localHost;
}
/**
* Get address assigned by proxy to listen for incomming connections, or the
* local machine address if doing direct connection.
*/
public InetAddress getInetAddress() {
if (localIP == null) {
try {
localIP = InetAddress.getByName(localHost);
} catch (final UnknownHostException e) {
return null;
}
}
return localIP;
}
/**
* Get port assigned by proxy to listen for incoming connections, or the
* port chosen by local system, if accepting directly.
*/
public int getLocalPort() {
return localPort;
}
/**
* Set Timeout.
*
* @param timeout
* Amount of time in milliseconds, accept should wait for
* incoming connection before failing with exception. Zero
* timeout implies infinity.
*/
public void setSoTimeout(int timeout) throws SocketException {
super.setSoTimeout(timeout);
if (!doing_direct) {
proxy.proxySocket.setSoTimeout(timeout);
}
}
// Private Methods
// ////////////////
private void processReply(ProxyMessage reply) throws SocksException {
localPort = reply.port;
/*
* If the server have assigned same host as it was contacted on it might
* return an address of all zeros
*/
if (reply.host.equals("0.0.0.0")) {
localIP = proxy.proxyIP;
localHost = localIP.getHostName();
} else {
localHost = reply.host;
localIP = reply.ip;
}
}
private void doDirect() {
doing_direct = true;
localPort = super.getLocalPort();
localIP = super.getInetAddress();
localHost = localIP.getHostName();
}
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.Socket;
import java.net.SocketException;
import java.net.UnknownHostException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* SocksSocket tryies to look very similar to normal Socket, while allowing
* connections through the SOCKS4 or 5 proxy. To use this class you will have to
* identify proxy you need to use, Proxy class allows you to set default proxy,
* which will be used by all Socks aware sockets. You can also create either
* Socks4Proxy or Socks5Proxy, and use them by passing to the appropriate
* constructors.
* <P>
* Using Socks package can be as easy as that:
*
* <pre>
* &lt;tt&gt;
*
* import Socks.*;
* ....
*
* try{
* //Specify SOCKS5 proxy
* Proxy.setDefaultProxy(&quot;socks-proxy&quot;,1080);
*
* //OR you still use SOCKS4
* //Code below uses SOCKS4 proxy
* //Proxy.setDefaultProxy(&quot;socks-proxy&quot;,1080,userName);
*
* Socket s = SocksSocket(&quot;some.host.of.mine&quot;,13);
* readTimeFromSock(s);
* }catch(SocksException sock_ex){
* //Usually it will turn in more or less meaningfull message
* System.err.println(&quot;SocksException:&quot;+sock_ex);
* }
*
* &lt;/tt&gt;
* </pre>
*<P>
* However if the need exist for more control, like resolving addresses
* remotely, or using some non-trivial authentication schemes, it can be done.
*/
public class SocksSocket extends Socket {
// Data members
protected SocksProxyBase proxy;
protected String localHost, remoteHost;
protected InetAddress localIP, remoteIP;
protected int localPort, remotePort;
private Socket directSock = null;
private Logger log = LoggerFactory.getLogger(SocksSocket.class);
/**
* Tryies to connect to given host and port using default proxy. If no
* default proxy speciefied it throws SocksException with error code
* SOCKS_NO_PROXY.
*
* @param host
* Machine to connect to.
* @param port
* Port to which to connect.
* @see SocksSocket#SocksSocket(SocksProxyBase,String,int)
* @see Socks5Proxy#resolveAddrLocally
*/
public SocksSocket(String host, int port) throws SocksException,
UnknownHostException {
this(SocksProxyBase.defaultProxy, host, port);
}
/**
* Connects to host port using given proxy server.
*
* @param p
* Proxy to use.
* @param host
* Machine to connect to.
* @param port
* Port to which to connect.
* @throws UnknownHostException
* If one of the following happens:
* <ol>
*
* <li>Proxy settings say that address should be resolved
* locally, but this fails.
* <li>Proxy settings say that the host should be contacted
* directly but host name can't be resolved.
* </ol>
* @throws SocksException
* If one of the following happens:
* <ul>
* <li>Proxy is is null.
* <li>Proxy settings say that the host should be contacted
* directly but this fails.
* <li>Socks Server can't be contacted.
* <li>Authentication fails.
* <li>Connection is not allowed by the SOCKS proxy.
* <li>SOCKS proxy can't establish the connection.
* <li>Any IO error occured.
* <li>Any protocol error occured.
* </ul>
* @throws IOexception
* if anything is wrong with I/O.
* @see Socks5Proxy#resolveAddrLocally
*/
public SocksSocket(SocksProxyBase p, String host, int port)
throws SocksException, UnknownHostException {
if (p == null) {
throw new SocksException(SocksProxyBase.SOCKS_NO_PROXY);
}
// proxy=p;
proxy = p.copy();
remoteHost = host;
remotePort = port;
if (proxy.isDirect(host)) {
remoteIP = InetAddress.getByName(host);
doDirect();
} else {
processReply(proxy.connect(host, port));
}
}
/**
* Tryies to connect to given ip and port using default proxy. If no default
* proxy speciefied it throws SocksException with error code SOCKS_NO_PROXY.
*
* @param ip
* Machine to connect to.
* @param port
* Port to which to connect.
* @see SocksSocket#SocksSocket(SocksProxyBase,String,int)
*/
public SocksSocket(InetAddress ip, int port) throws SocksException {
this(SocksProxyBase.defaultProxy, ip, port);
}
/**
* Connects to given ip and port using given Proxy server.
*
* @param p
* Proxy to use.
* @param ip
* Machine to connect to.
* @param port
* Port to which to connect.
*/
public SocksSocket(SocksProxyBase p, InetAddress ip, int port)
throws SocksException {
if (p == null) {
throw new SocksException(SocksProxyBase.SOCKS_NO_PROXY);
}
this.proxy = p.copy();
this.remoteIP = ip;
this.remotePort = port;
this.remoteHost = ip.getHostName();
if (proxy.isDirect(remoteIP)) {
doDirect();
} else {
processReply(proxy.connect(ip, port));
}
}
/**
* These 2 constructors are used by the SocksServerSocket. This socket
* simply overrides remoteHost, remotePort
*/
protected SocksSocket(String host, int port, SocksProxyBase proxy) {
this.remotePort = port;
this.proxy = proxy;
this.localIP = proxy.proxySocket.getLocalAddress();
this.localPort = proxy.proxySocket.getLocalPort();
this.remoteHost = host;
}
protected SocksSocket(InetAddress ip, int port, SocksProxyBase proxy) {
remoteIP = ip;
remotePort = port;
this.proxy = proxy;
this.localIP = proxy.proxySocket.getLocalAddress();
this.localPort = proxy.proxySocket.getLocalPort();
remoteHost = remoteIP.getHostName();
}
/**
* Same as Socket
*/
public void close() throws IOException {
if (proxy != null) {
proxy.endSession();
}
proxy = null;
}
/**
* Same as Socket
*/
public InputStream getInputStream() {
return proxy.in;
}
/**
* Same as Socket
*/
public OutputStream getOutputStream() {
return proxy.out;
}
/**
* Same as Socket
*/
public int getPort() {
return remotePort;
}
/**
* Returns remote host name, it is usefull in cases when addresses are
* resolved by proxy, and we can't create InetAddress object.
*
* @return The name of the host this socket is connected to.
*/
public String getHost() {
return remoteHost;
}
/**
* Get remote host as InetAddress object, might return null if addresses are
* resolved by proxy, and it is not possible to resolve it locally
*
* @return Ip address of the host this socket is connected to, or null if
* address was returned by the proxy as DOMAINNAME and can't be
* resolved locally.
*/
public InetAddress getInetAddress() {
if (remoteIP == null) {
try {
remoteIP = InetAddress.getByName(remoteHost);
} catch (final UnknownHostException e) {
return null;
}
}
return remoteIP;
}
/**
* Get the port assigned by the proxy for the socket, not the port on locall
* machine as in Socket.
*
* @return Port of the socket used on the proxy server.
*/
public int getLocalPort() {
return localPort;
}
/**
* Get address assigned by proxy to make a remote connection, it might be
* different from the host specified for the proxy. Can return null if socks
* server returned this address as hostname and it can't be resolved
* locally, use getLocalHost() then.
*
* @return Address proxy is using to make a connection.
*/
public InetAddress getLocalAddress() {
if (localIP == null) {
try {
localIP = InetAddress.getByName(localHost);
} catch (final UnknownHostException e) {
return null;
}
}
return localIP;
}
/**
* Get name of the host, proxy has assigned to make a remote connection for
* this socket. This method is usefull when proxy have returned address as
* hostname, and we can't resolve it on this machine.
*
* @return The name of the host proxy is using to make a connection.
*/
public String getLocalHost() {
return localHost;
}
/**
* Same as socket.
*/
public void setSoLinger(boolean on, int val) throws SocketException {
proxy.proxySocket.setSoLinger(on, val);
}
/**
* Same as socket.
*/
public int getSoLinger(int timeout) throws SocketException {
return proxy.proxySocket.getSoLinger();
}
/**
* Same as socket.
*/
public void setSoTimeout(int timeout) throws SocketException {
proxy.proxySocket.setSoTimeout(timeout);
}
/**
* Same as socket.
*/
public int getSoTimeout(int timeout) throws SocketException {
return proxy.proxySocket.getSoTimeout();
}
/**
* Same as socket.
*/
public void setTcpNoDelay(boolean on) throws SocketException {
proxy.proxySocket.setTcpNoDelay(on);
}
/**
* Same as socket.
*/
public boolean getTcpNoDelay() throws SocketException {
return proxy.proxySocket.getTcpNoDelay();
}
/**
* Get string representation of the socket.
*/
public String toString() {
if (directSock != null) {
return "Direct connection:" + directSock;
}
StringBuffer sb = new StringBuffer();
sb.append("Proxy:");
sb.append(proxy);
sb.append(";");
sb.append("addr:");
sb.append(remoteHost);
sb.append(",port:");
sb.append(remotePort);
sb.append(",localport:");
sb.append(localPort);
return sb.toString();
}
// Private Methods
// ////////////////
private void processReply(ProxyMessage reply) throws SocksException {
localPort = reply.port;
/*
* If the server have assigned same host as it was contacted on it might
* return an address of all zeros
*/
if (reply.host.equals("0.0.0.0")) {
localIP = proxy.proxyIP;
localHost = localIP.getHostName();
} else {
localHost = reply.host;
localIP = reply.ip;
}
}
private void doDirect() throws SocksException {
try {
log.debug("IP: {}_{}", remoteIP, remotePort);
directSock = new Socket(remoteIP, remotePort);
proxy.out = directSock.getOutputStream();
proxy.in = directSock.getInputStream();
proxy.proxySocket = directSock;
localIP = directSock.getLocalAddress();
localPort = directSock.getLocalPort();
} catch (final IOException io_ex) {
final int errCode = SocksProxyBase.SOCKS_DIRECT_FAILED;
throw new SocksException(errCode, "Direct connect failed:", io_ex);
}
}
}

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package com.runjva.sourceforge.jsocks.protocol;
/**
* This interface provides for datagram encapsulation for SOCKSv5 protocol.
* <p>
* SOCKSv5 allows for datagrams to be encapsulated for purposes of integrity
* and/or authenticity. How it should be done is aggreed during the
* authentication stage, and is authentication dependent. This interface is
* provided to allow this encapsulation.
*
* @see Authentication
*/
public interface UDPEncapsulation {
/**
* This method should provide any authentication depended transformation on
* datagrams being send from/to the client.
*
* @param data
* Datagram data (including any SOCKS related bytes), to be
* encapsulated/decapsulated.
* @param out
* Wether the data is being send out. If true method should
* encapsulate/encrypt data, otherwise it should decapsulate/
* decrypt data.
* @throw IOException if for some reason data can be transformed correctly.
* @return Should return byte array containing data after transformation. It
* is possible to return same array as input, if transformation only
* involves bit mangling, and no additional data is being added or
* removed.
*/
byte[] udpEncapsulate(byte[] data, boolean out) throws java.io.IOException;
}

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package com.runjva.sourceforge.jsocks.protocol;
import java.io.IOException;
import java.io.InterruptedIOException;
import java.net.DatagramPacket;
import java.net.DatagramSocket;
import java.net.InetAddress;
import java.net.Socket;
import java.net.UnknownHostException;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
import com.runjva.sourceforge.jsocks.server.ServerAuthenticator;
/**
* UDP Relay server, used by ProxyServer to perform udp forwarding.
*/
class UDPRelayServer implements Runnable {
DatagramSocket client_sock;
DatagramSocket remote_sock;
Socket controlConnection;
int relayPort;
InetAddress relayIP;
Thread pipe_thread1, pipe_thread2;
Thread master_thread;
ServerAuthenticator auth;
long lastReadTime;
static Logger log = LoggerFactory.getLogger(UDPRelayServer.class);
static SocksProxyBase proxy = null;
static int datagramSize = 0xFFFF;// 64K, a bit more than max udp size
static int iddleTimeout = 180000;// 3 minutes
/**
* Constructs UDP relay server to communicate with client on given ip and
* port.
*
* @param clientIP
* Address of the client from whom datagrams will be recieved and
* to whom they will be forwarded.
* @param clientPort
* Clients port.
* @param master_thread
* Thread which will be interrupted, when UDP relay server
* stoppes for some reason.
* @param controlConnection
* Socket which will be closed, before interrupting the master
* thread, it is introduced due to a bug in windows JVM which
* does not throw InterruptedIOException in threads which block
* in I/O operation.
*/
public UDPRelayServer(InetAddress clientIP, int clientPort,
Thread master_thread, Socket controlConnection,
ServerAuthenticator auth) throws IOException {
this.master_thread = master_thread;
this.controlConnection = controlConnection;
this.auth = auth;
client_sock = new Socks5DatagramSocket(true,
auth.getUdpEncapsulation(), clientIP, clientPort);
relayPort = client_sock.getLocalPort();
relayIP = client_sock.getLocalAddress();
if (relayIP.getHostAddress().equals("0.0.0.0")) {
relayIP = InetAddress.getLocalHost();
}
if (proxy == null) {
remote_sock = new DatagramSocket();
} else {
remote_sock = new Socks5DatagramSocket(proxy, 0, null);
}
}
// Public methods
// ///////////////
/**
* Sets the timeout for UDPRelay server.<br>
* Zero timeout implies infinity.<br>
* Default timeout is 3 minutes.
*/
static public void setTimeout(int timeout) {
iddleTimeout = timeout;
}
/**
* Sets the size of the datagrams used in the UDPRelayServer.<br>
* Default size is 64K, a bit more than maximum possible size of the
* datagram.
*/
static public void setDatagramSize(int size) {
datagramSize = size;
}
/**
* Port to which client should send datagram for association.
*/
public int getRelayPort() {
return relayPort;
}
/**
* IP address to which client should send datagrams for association.
*/
public InetAddress getRelayIP() {
return relayIP;
}
/**
* Starts udp relay server. Spawns two threads of execution and returns.
*/
public void start() throws IOException {
remote_sock.setSoTimeout(iddleTimeout);
client_sock.setSoTimeout(iddleTimeout);
log.info("Starting UDP relay server on {}:{}", relayIP, relayPort);
log.info("Remote socket {}:{}", remote_sock.getLocalAddress(),
remote_sock.getLocalPort());
pipe_thread1 = new Thread(this, "pipe1");
pipe_thread2 = new Thread(this, "pipe2");
lastReadTime = System.currentTimeMillis();
pipe_thread1.start();
pipe_thread2.start();
}
/**
* Stops Relay server.
* <p>
* Does not close control connection, does not interrupt master_thread.
*/
public synchronized void stop() {
master_thread = null;
controlConnection = null;
abort();
}
// Runnable interface
// //////////////////
public void run() {
try {
if (Thread.currentThread().getName().equals("pipe1")) {
pipe(remote_sock, client_sock, false);
} else {
pipe(client_sock, remote_sock, true);
}
} catch (final IOException ioe) {
} finally {
abort();
log.info("UDP Pipe thread " + Thread.currentThread().getName()
+ " stopped.");
}
}
// Private methods
// ///////////////
private synchronized void abort() {
if (pipe_thread1 == null) {
return;
}
log.info("Aborting UDP Relay Server");
remote_sock.close();
client_sock.close();
if (controlConnection != null) {
try {
controlConnection.close();
} catch (final IOException ioe) {
}
}
if (master_thread != null) {
master_thread.interrupt();
}
pipe_thread1.interrupt();
pipe_thread2.interrupt();
pipe_thread1 = null;
}
private void pipe(DatagramSocket from, DatagramSocket to, boolean out)
throws IOException {
final byte[] data = new byte[datagramSize];
final DatagramPacket dp = new DatagramPacket(data, data.length);
while (true) {
try {
from.receive(dp);
lastReadTime = System.currentTimeMillis();
if (auth.checkRequest(dp, out)) {
to.send(dp);
}
} catch (final UnknownHostException uhe) {
log.info("Dropping datagram for unknown host");
} catch (final InterruptedIOException iioe) {
// log("Interrupted: "+iioe);
// If we were interrupted by other thread.
if (iddleTimeout == 0) {
return;
}
// If last datagram was received, long time ago, return.
final long timeSinceRead = System.currentTimeMillis()
- lastReadTime;
if (timeSinceRead >= iddleTimeout - 100) {
return;
}
}
dp.setLength(data.length);
}
}
}

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package com.runjva.sourceforge.jsocks.protocol;
/**
* SOCKS5 User Password authentication scheme.
*/
public class UserPasswordAuthentication implements Authentication {
/** SOCKS ID for User/Password authentication method */
public final static int METHOD_ID = 2;
String userName, password;
byte[] request;
/**
* Create an instance of UserPasswordAuthentication.
*
* @param userName
* User Name to send to SOCKS server.
* @param password
* Password to send to SOCKS server.
*/
public UserPasswordAuthentication(String userName, String password) {
this.userName = userName;
this.password = password;
formRequest();
}
/**
* Get the user name.
*
* @return User name.
*/
public String getUser() {
return userName;
}
/**
* Get password
*
* @return Password
*/
public String getPassword() {
return password;
}
/**
* Does User/Password authentication as defined in rfc1929.
*
* @return An array containnig in, out streams, or null if authentication
* fails.
*/
public Object[] doSocksAuthentication(int methodId,
java.net.Socket proxySocket) throws java.io.IOException {
if (methodId != METHOD_ID) {
return null;
}
final java.io.InputStream in = proxySocket.getInputStream();
final java.io.OutputStream out = proxySocket.getOutputStream();
out.write(request);
final int version = in.read();
if (version < 0) {
return null; // Server closed connection
}
final int status = in.read();
if (status != 0) {
return null; // Server closed connection, or auth failed.
}
return new Object[] { in, out };
}
// Private methods
// ////////////////
/** Convert UserName password in to binary form, ready to be send to server */
private void formRequest() {
final byte[] user_bytes = userName.getBytes();
final byte[] password_bytes = password.getBytes();
request = new byte[3 + user_bytes.length + password_bytes.length];
request[0] = (byte) 1;
request[1] = (byte) user_bytes.length;
System.arraycopy(user_bytes, 0, request, 2, user_bytes.length);
request[2 + user_bytes.length] = (byte) password_bytes.length;
System.arraycopy(password_bytes, 0, request, 3 + user_bytes.length,
password_bytes.length);
}
}

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package com.runjva.sourceforge.jsocks.server;
import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
import java.io.InterruptedIOException;
import java.net.ConnectException;
import java.net.Socket;
import java.util.StringTokenizer;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;
/**
* Class Ident provides means to obtain user name of the owner of the socket on
* remote machine, providing remote machine runs identd daemon.
* <p>
* To use it: <tt><pre>
Socket s = ss.accept();
Ident id = new Ident(s);
if(id.successful) goUseUser(id.userName);
else handleIdentError(id.errorCode,id.errorMessage)
</pre></tt>
*/
public class Ident {
Logger log = LoggerFactory.getLogger(Ident.class);
/** Error Message can be null. */
public String errorMessage;
/** Host type as returned by daemon, can be null, if error happened */
public String hostType;
/** User name as returned by the identd daemon, or null, if it failed */
public String userName;
/**
* If this is true then userName and hostType contain valid values. Else
* errorCode contain the error code, and errorMessage contains the
* corresponding message.
*/
public boolean successful;
/** Error code */
public int errorCode;
/** Identd on port 113 can't be contacted */
public static final int ERR_NO_CONNECT = 1;
/** Connection timed out */
public static final int ERR_TIMEOUT = 2;
/**
* Identd daemon responded with ERROR, in this case errorMessage contains
* the string explanation, as send by the daemon.
*/
public static final int ERR_PROTOCOL = 3;
/**
* When parsing server response protocol error happened.
*/
public static final int ERR_PROTOCOL_INCORRECT = 4;
/**
* Maximum amount of time we should wait before dropping the connection to
* identd server.Setting it to 0 implies infinit timeout.
*/
public static final int connectionTimeout = 10000;
/**
* Constructor tries to connect to Identd daemon on the host of the given
* socket, and retrieve user name of the owner of given socket connection on
* remote machine. After constructor returns public fields are initialised
* to whatever the server returned.
* <p>
* If user name was successfully retrieved successful is set to true, and
* userName and hostType are set to whatever server returned. If however for
* some reason user name was not obtained, successful is set to false and
* errorCode contains the code explaining the reason of failure, and
* errorMessage contains human readable explanation.
* <p>
* Constructor may block, for a while.
*
* @param s
* Socket whose ownership on remote end should be obtained.
*/
public Ident(Socket s) {
Socket sock = null;
successful = false; // We are pessimistic
try {
sock = new Socket(s.getInetAddress(), 113);
sock.setSoTimeout(connectionTimeout);
final byte[] request = ("" + s.getPort() + " , " + s.getLocalPort() + "\r\n")
.getBytes();
sock.getOutputStream().write(request);
final BufferedReader in = new BufferedReader(new InputStreamReader(
sock.getInputStream()));
parseResponse(in.readLine());
} catch (final InterruptedIOException iioe) {
errorCode = ERR_TIMEOUT;
errorMessage = "Connection to identd timed out.";
} catch (final ConnectException ce) {
errorCode = ERR_NO_CONNECT;
errorMessage = "Connection to identd server failed.";
} catch (final IOException ioe) {
errorCode = ERR_NO_CONNECT;
errorMessage = "" + ioe;
} finally {
try {
if (sock != null) {
sock.close();
}
} catch (final IOException ioe) {
log.warn("Could not close socket", ioe);
}
}
}
private void parseResponse(String response) {
if (response == null) {
errorCode = ERR_PROTOCOL_INCORRECT;
errorMessage = "Identd server closed connection.";
return;
}
final StringTokenizer st = new StringTokenizer(response, ":");
if (st.countTokens() < 3) {
errorCode = ERR_PROTOCOL_INCORRECT;
errorMessage = "Can't parse server response.";
return;
}
st.nextToken(); // Discard first token, it's basically what we have send
final String command = st.nextToken().trim().toUpperCase();
if (command.equals("USERID") && (st.countTokens() >= 2)) {
successful = true;
hostType = st.nextToken().trim();
userName = st.nextToken("").substring(1);// Get all that is left
} else if (command.equals("ERROR")) {
errorCode = ERR_PROTOCOL;
errorMessage = st.nextToken();
} else {
errorCode = ERR_PROTOCOL_INCORRECT;
System.out.println("Opa!");
errorMessage = "Can't parse server response.";
}
}
// /////////////////////////////////////////////
// USED for Testing
/*
* public static void main(String[] args) throws IOException{
*
* Socket s = null; s = new Socket("gp101-16", 1391);
*
* Ident id = new Ident(s); if(id.successful){
* System.out.println("User: "+id.userName);
* System.out.println("HostType: "+id.hostType); }else{
* System.out.println("ErrorCode: "+id.errorCode);
* System.out.println("ErrorMessage: "+id.errorMessage);
*
* }
*
* if(s!= null) s.close(); } //
*/
}

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package com.runjva.sourceforge.jsocks.server;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.InetAddress;
import java.net.Socket;
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.Vector;
import com.runjva.sourceforge.jsocks.protocol.InetRange;
import com.runjva.sourceforge.jsocks.protocol.ProxyMessage;
/**
* An implementation of socks.ServerAuthentication which provides simple
* authentication based on the host from which the connection is made and the
* name of the user on the remote machine, as reported by identd daemon on the
* remote machine.
* <p>
* It can also be used to provide authentication based only on the contacting
* host address.
*/
public class IdentAuthenticator extends ServerAuthenticatorBase {
/** Vector of InetRanges */
Vector<InetRange> hosts;
/** Vector of user hashes */
Vector<Hashtable<?, ?>> users;
String user;
/**
* Constructs empty IdentAuthenticator.
*/
public IdentAuthenticator() {
hosts = new Vector<InetRange>();
users = new Vector<Hashtable<?, ?>>();
}
/**
* Used to create instances returned from startSession.
*
* @param in
* Input stream.
* @param out
* OutputStream.
* @param user
* Username associated with this connection,could be null if name
* was not required.
*/
IdentAuthenticator(InputStream in, OutputStream out, String user) {
super(in, out);
this.user = user;
}
/**
* Adds range of addresses from which connection is allowed. Hashtable users
* should contain user names as keys and anything as values (value is not
* used and will be ignored).
*
* @param hostRange
* Range of ip addresses from which connection is allowed.
* @param users
* Hashtable of users for whom connection is allowed, or null to
* indicate that anybody is allowed to connect from the hosts
* within given range.
*/
public synchronized void add(InetRange hostRange, Hashtable<?, ?> users) {
this.hosts.addElement(hostRange);
this.users.addElement(users);
}
/**
* Grants permission only to those users, who connect from one of the hosts
* registered with add(InetRange,Hashtable) and whose names, as reported by
* identd daemon, are listed for the host the connection came from.
*/
public ServerAuthenticator startSession(Socket s) throws IOException {
final int ind = getRangeIndex(s.getInetAddress());
String user = null;
// System.out.println("getRangeReturned:"+ind);
if (ind < 0) {
return null; // Host is not on the list.
}
final ServerAuthenticator serverAuthenticator = super.startSession(s);
final ServerAuthenticatorBase auth = (ServerAuthenticatorBase) serverAuthenticator;
// System.out.println("super.startSession() returned:"+auth);
if (auth == null) {
return null;
}
// do the authentication
final Hashtable<?, ?> user_names = users.elementAt(ind);
if (user_names != null) { // If need to do authentication
Ident ident;
ident = new Ident(s);
// If can't obtain user name, fail
if (!ident.successful) {
return null;
}
// If user name is not listed for this address, fail
if (!user_names.containsKey(ident.userName)) {
return null;
}
user = ident.userName;
}
return new IdentAuthenticator(auth.in, auth.out, user);
}
/**
* For SOCKS5 requests allways returns true. For SOCKS4 requests checks
* wether the user name supplied in the request corresponds to the name
* obtained from the ident daemon.
*/
public boolean checkRequest(ProxyMessage msg, java.net.Socket s) {
// If it's version 5 request, or if anybody is permitted, return true;
if ((msg.version == 5) || (user == null)) {
return true;
}
if (msg.version != 4) {
return false; // Who knows?
}
return user.equals(msg.user);
}
/** Get String representaion of the IdentAuthenticator. */
public String toString() {
String s = "";
for (int i = 0; i < hosts.size(); ++i) {
s += "(Range:" + hosts.elementAt(i) + "," + //
" Users:" + userNames(i) + ") ";
}
return s;
}
// Private Methods
// ////////////////
private int getRangeIndex(InetAddress ip) {
int index = 0;
final Enumeration<InetRange> enumx = hosts.elements();
while (enumx.hasMoreElements()) {
final InetRange ir = enumx.nextElement();
if (ir.contains(ip)) {
return index;
}
index++;
}
return -1; // Not found
}
private String userNames(int i) {
if (users.elementAt(i) == null) {
return "Everybody is permitted.";
}
final Enumeration<?> enumx = ((Hashtable<?, ?>) users.elementAt(i))
.keys();
if (!enumx.hasMoreElements()) {
return "";
}
String s = enumx.nextElement().toString();
while (enumx.hasMoreElements()) {
s += "; " + enumx.nextElement();
}
return s;
}
}

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package com.runjva.sourceforge.jsocks.server;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.DatagramPacket;
import java.net.Socket;
import com.runjva.sourceforge.jsocks.protocol.ProxyMessage;
import com.runjva.sourceforge.jsocks.protocol.UDPEncapsulation;
/**
* Classes implementing this interface should provide socks server with
* authentication and authorization of users.
**/
public interface ServerAuthenticator {
/**
* This method is called when a new connection accepted by the server.
* <p>
* At this point no data have been extracted from the connection. It is
* responsibility of this method to ensure that the next byte in the stream
* after this method have been called is the first byte of the socks request
* message. For SOCKSv4 there is no authentication data and the first byte
* in the stream is part of the request. With SOCKSv5 however there is an
* authentication data first. It is expected that implementaions will
* process this authentication data.
* <p>
* If authentication was successful an instance of ServerAuthentication
* should be returned, it later will be used by the server to perform
* authorization and some other things. If authentication fails null should
* be returned, or an exception may be thrown.
*
* @param s
* Accepted Socket.
* @return An instance of ServerAuthenticator to be used for this connection
* or null
*/
ServerAuthenticator startSession(Socket s) throws IOException;
/**
* This method should return input stream which should be used on the
* accepted socket.
* <p>
* SOCKSv5 allows to have multiple authentication methods, and these methods
* might require some kind of transformations being made on the data.
* <p>
* This method is called on the object returned from the startSession
* function.
*/
InputStream getInputStream();
/**
* This method should return output stream to use to write to the accepted
* socket.
* <p>
* SOCKSv5 allows to have multiple authentication methods, and these methods
* might require some kind of transformations being made on the data.
* <p>
* This method is called on the object returned from the startSession
* function.
*/
OutputStream getOutputStream();
/**
* This method should return UDPEncapsulation, which should be used on the
* datagrams being send in/out.
* <p>
* If no transformation should be done on the datagrams, this method should
* return null.
* <p>
* This method is called on the object returned from the startSession
* function.
*/
UDPEncapsulation getUdpEncapsulation();
/**
* This method is called when a request have been read.
* <p>
* Implementation should decide wether to grant request or not. Returning
* true implies granting the request, false means request should be
* rejected.
* <p>
* This method is called on the object returned from the startSession
* function.
*
* @param msg
* Request message.
* @return true to grant request, false to reject it.
*/
boolean checkRequest(ProxyMessage msg);
/**
* This method is called when datagram is received by the server.
* <p>
* Implementaions should decide wether it should be forwarded or dropped. It
* is expecteed that implementation will use datagram address and port
* information to make a decision, as well as anything else. Address and
* port of the datagram are always correspond to remote machine. It is
* either destination or source address. If out is true address is
* destination address, else it is a source address, address of the machine
* from which datagram have been received for the client.
* <p>
* Implementaions should return true if the datagram is to be forwarded, and
* false if the datagram should be dropped.
* <p>
* This method is called on the object returned from the startSession
* function.
*
* @param out
* If true the datagram is being send out(from the client),
* otherwise it is an incoming datagram.
* @return True to forward datagram false drop it silently.
*/
boolean checkRequest(DatagramPacket dp, boolean out);
/**
* This method is called when session is completed. Either due to normal
* termination or due to any error condition.
* <p>
* This method is called on the object returned from the startSession
* function.
*/
void endSession();
}

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package com.runjva.sourceforge.jsocks.server;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.io.PushbackInputStream;
import java.net.Socket;
import com.runjva.sourceforge.jsocks.protocol.ProxyMessage;
import com.runjva.sourceforge.jsocks.protocol.UDPEncapsulation;
/**
* An implementation of ServerAuthenticator, which does <b>not</b> do any
* authentication.
* <P>
* <FONT size="+3" color ="FF0000"> Warning!!</font><br>
* Should not be used on machines which are not behind the firewall.
* <p>
* It is only provided to make implementing other authentication schemes easier.
* <br>
* For Example: <tt><pre>
class MyAuth extends socks.server.ServerAuthenticator{
...
public ServerAuthenticator startSession(java.net.Socket s){
if(!checkHost(s.getInetAddress()) return null;
return super.startSession(s);
}
boolean checkHost(java.net.Inetaddress addr){
boolean allow;
//Do it somehow
return allow;
}
}
</pre></tt>
*/
public abstract class ServerAuthenticatorBase implements ServerAuthenticator {
static final byte[] socks5response = { 5, 0 };
InputStream in;
OutputStream out;
/**
* Creates new instance of the ServerAuthenticatorNone.
*/
public ServerAuthenticatorBase() {
this.in = null;
this.out = null;
}
/**
* Constructs new ServerAuthenticatorNone object suitable for returning from
* the startSession function.
*
* @param in
* Input stream to return from getInputStream method.
* @param out
* Output stream to return from getOutputStream method.
*/
public ServerAuthenticatorBase(InputStream in, OutputStream out) {
this.in = in;
this.out = out;
}
/**
* Grants access to everyone.Removes authentication related bytes from the
* stream, when a SOCKS5 connection is being made, selects an authentication
* NONE.
*/
public ServerAuthenticator startSession(Socket s) throws IOException {
final PushbackInputStream in = new PushbackInputStream(s
.getInputStream());
final OutputStream out = s.getOutputStream();
final int version = in.read();
if (version == 5) {
if (!selectSocks5Authentication(in, out, 0)) {
return null;
}
} else if (version == 4) {
// Else it is the request message already, version 4
in.unread(version);
} else {
return null;
}
return new ServerAuthenticatorNone(in, out);
}
/**
* Get input stream.
*
* @return Input stream speciefied in the constructor.
*/
public InputStream getInputStream() {
return in;
}
/**
* Get output stream.
*
* @return Output stream speciefied in the constructor.
*/
public OutputStream getOutputStream() {
return out;
}
/**
* Allways returns null.
*
* @return null
*/
public UDPEncapsulation getUdpEncapsulation() {
return null;
}
/**
* Allways returns true.
*/
public boolean checkRequest(ProxyMessage msg) {
return true;
}
/**
* Allways returns true.
*/
public boolean checkRequest(java.net.DatagramPacket dp, boolean out) {
return true;
}
/**
* Does nothing.
*/
public void endSession() {
}
/**
* Convinience routine for selecting SOCKSv5 authentication.
* <p>
* This method reads in authentication methods that client supports, checks
* wether it supports given method. If it does, the notification method is
* written back to client, that this method have been chosen for
* authentication. If given method was not found, authentication failure
* message is send to client ([5,FF]).
*
* @param in
* Input stream, version byte should be removed from the stream
* before calling this method.
* @param out
* Output stream.
* @param methodId
* Method which should be selected.
* @return true if methodId was found, false otherwise.
*/
static public boolean selectSocks5Authentication(InputStream in,
OutputStream out, int methodId) throws IOException {
final int num_methods = in.read();
if (num_methods <= 0) {
return false;
}
final byte method_ids[] = new byte[num_methods];
final byte response[] = new byte[2];
boolean found = false;
response[0] = (byte) 5; // SOCKS version
response[1] = (byte) 0xFF; // Not found, we are pessimistic
int bread = 0; // bytes read so far
while (bread < num_methods) {
bread += in.read(method_ids, bread, num_methods - bread);
}
for (int i = 0; i < num_methods; ++i) {
if (method_ids[i] == methodId) {
found = true;
response[1] = (byte) methodId;
break;
}
}
out.write(response);
return found;
}
}

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package com.runjva.sourceforge.jsocks.server;
import java.io.InputStream;
import java.io.OutputStream;
/**
* Simplest possible ServerAuthenticator implementation. Extends common base.
*
*/
public class ServerAuthenticatorNone extends ServerAuthenticatorBase {
public ServerAuthenticatorNone(InputStream in, OutputStream out) {
super(in, out);
}
}

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package com.runjva.sourceforge.jsocks.server;
import java.io.IOException;
import java.io.InputStream;
import java.io.OutputStream;
import java.net.Socket;
/**
* This class implements SOCKS5 User/Password authentication scheme as defined
* in rfc1929,the server side of it. (see docs/rfc1929.txt)
*/
public class UserPasswordAuthenticator extends ServerAuthenticatorBase {
static final int METHOD_ID = 2;
UserValidation validator;
/**
* Construct a new UserPasswordAuthentication object, with given
* UserVlaidation scheme.
*
* @param v
* UserValidation to use for validating users.
*/
public UserPasswordAuthenticator(UserValidation validator) {
this.validator = validator;
}
public ServerAuthenticator startSession(Socket s) throws IOException {
final InputStream in = s.getInputStream();
final OutputStream out = s.getOutputStream();
if (in.read() != 5) {
return null; // Drop non version 5 messages.
}
if (!selectSocks5Authentication(in, out, METHOD_ID)) {
return null;
}
if (!doUserPasswordAuthentication(s, in, out)) {
return null;
}
return new ServerAuthenticatorNone(in, out);
}
// Private Methods
// ////////////////
private boolean doUserPasswordAuthentication(Socket s, InputStream in,
OutputStream out) throws IOException {
final int version = in.read();
if (version != 1) {
return false;
}
final int ulen = in.read();
if (ulen < 0) {
return false;
}
final byte[] user = new byte[ulen];
in.read(user);
final int plen = in.read();
if (plen < 0) {
return false;
}
final byte[] password = new byte[plen];
in.read(password);
if (validator.isUserValid(new String(user), new String(password), s)) {
// System.out.println("user valid");
out.write(new byte[] { 1, 0 });
} else {
// System.out.println("user invalid");
out.write(new byte[] { 1, 1 });
return false;
}
return true;
}
}

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package com.runjva.sourceforge.jsocks.server;
/**
* Interface which provides for user validation, based on user name password and
* where it connects from.
*/
public interface UserValidation {
/**
* Implementations of this interface are expected to use some or all of the
* information provided plus any information they can extract from other
* sources to decide wether given user should be allowed access to SOCKS
* server, or whatever you use it for.
*
* @return true to indicate user is valid, false otherwise.
* @param username
* User whom implementation should validate.
* @param password
* Password this user provided.
* @param connection
* Socket which user used to connect to the server.
*/
boolean isUserValid(String username, String password,
java.net.Socket connection);
}

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package org.sandroproxy.ony;
import java.util.Locale;
import org.torproject.android.TorConstants;
import org.torproject.android.service.TorServiceUtils;
import android.app.Application;
import android.content.SharedPreferences;
import android.content.res.Configuration;
import android.preference.PreferenceManager;
public class OrbotApp extends Application implements TorConstants
{
private Locale locale;
private final static String DEFAULT_LOCALE = "en";
private SharedPreferences settings;
@Override
public void onCreate() {
super.onCreate();
settings = TorServiceUtils.getSharedPrefs(getApplicationContext());
Configuration config = getResources().getConfiguration();
String lang = settings.getString(PREF_DEFAULT_LOCALE, DEFAULT_LOCALE);
if (! "".equals(lang) && ! config.locale.getLanguage().equals(lang))
{
if (lang.equals("xx"))
{
locale = Locale.getDefault();
}
else
locale = new Locale(lang);
Locale.setDefault(locale);
Configuration myConfig = new Configuration(config);
myConfig.locale = locale;
getResources().updateConfiguration(myConfig, getResources().getDisplayMetrics());
}
}
@Override
public void onConfigurationChanged(Configuration newConfig)
{
super.onConfigurationChanged(newConfig);
String lang = settings.getString(PREF_DEFAULT_LOCALE, DEFAULT_LOCALE);
if (! "".equals(lang) && ! newConfig.locale.getLanguage().equals(lang))
{
locale = new Locale(lang);
Locale.setDefault(locale);
Configuration myConfig = new Configuration(newConfig);
myConfig.locale = locale;
getResources().updateConfiguration(myConfig, getResources().getDisplayMetrics());
}
}
}