我想在我的应用程序中连接VPN . 我从https://github.com/guardianproject/OrbotVPN下载演示
package org.torproject.android.vpn;
import java.io.FileInputStream;
import java.io.FileOutputStream;
import java.net.DatagramSocket;
import java.net.InetAddress;
import java.net.InetSocketAddress;
import java.net.UnknownHostException;
import java.nio.ByteBuffer;
import java.nio.channels.DatagramChannel;
import android.app.PendingIntent;
import android.content.Intent;
import android.net.VpnService;
import android.os.Handler;
import android.os.Message;
import android.os.ParcelFileDescriptor;
import android.util.Log;
import android.widget.Toast;
import com.runjva.sourceforge.jsocks.protocol.ProxyServer;
import com.runjva.sourceforge.jsocks.server.ServerAuthenticatorNone;
public class OrbotVpnService extends VpnService implements Handler.Callback, Runnable {
private static final String TAG = "OrbotVpnService";
private String mServerAddress = "192.xx.xx.xx";
private int mServerPort = xxxx;
private PendingIntent mConfigureIntent;
private Handler mHandler;
private Thread mThread;
private String mSessionName = "OrbotVPN";
private ParcelFileDescriptor mInterface;
private int mSocksProxyPort = 9999;
private boolean mKeepRunning = true;
@Override
public int onStartCommand(Intent intent, int flags, int startId) {
// The handler is only used to show messages.
if (mHandler == null) {
mHandler = new Handler(this);
}
// Stop the previous session by interrupting the thread.
if (mThread != null) {
mThread.interrupt();
}
// Start a new session by creating a new thread.
mThread = new Thread(this, "OrbotVpnThread");
mThread.start();
startSocksBypass ();
return START_STICKY;
}
private void startSocksBypass ()
{
Thread thread = new Thread ()
{
public void run ()
{
try {
final ProxyServer server = new ProxyServer(new ServerAuthenticatorNone(null, null));
server.setVpnService(OrbotVpnService.this);
server.start(9999, 5, InetAddress.getLocalHost());
} catch (UnknownHostException e) {
e.printStackTrace();
}
}
};
thread.start();
}
@Override
public void onDestroy() {
if (mThread != null) {
mKeepRunning = false;
mThread.interrupt();
}
}
@Override
public boolean handleMessage(Message message) {
if (message != null) {
Toast.makeText(this, message.what, Toast.LENGTH_SHORT).show();
}
return true;
}
@Override
public synchronized void run() {
try {
Log.i(TAG, "Starting");
// If anything needs to be obtained using the network, get it now.
// This greatly reduces the complexity of seamless handover, which
// tries to recreate the tunnel without shutting down everything.
// In this demo, all we need to know is the server address.
InetSocketAddress server = new InetSocketAddress(
mServerAddress, mServerPort);
mHandler.sendEmptyMessage(R.string.connecting);
run(server);
} catch (Exception e) {
Log.e(TAG, "Got " + e.toString());
try {
mInterface.close();
} catch (Exception e2) {
// ignore
}
mHandler.sendEmptyMessage(R.string.disconnected);
} finally {
}
}
/*
@Override
public synchronized void run() {
try {
Log.i(TAG, "Starting");
// If anything needs to be obtained using the network, get it now.
// This greatly reduces the complexity of seamless handover, which
// tries to recreate the tunnel without shutting down everything.
// In this demo, all we need to know is the server address.
InetSocketAddress server = new InetSocketAddress(
mServerAddress, mServerPort);
// We try to create the tunnel for several times. The better way
// is to work with ConnectivityManager, such as trying only when
// the network is avaiable. Here we just use a counter to keep
// things simple.
for (int attempt = 0; attempt < 10; ++attempt) {
mHandler.sendEmptyMessage(R.string.connecting);
// Reset the counter if we were connected.
if (run(server)) {
attempt = 0;
}
// Sleep for a while. This also checks if we got interrupted.
Thread.sleep(3000);
}
Log.i(TAG, "Giving up");
} catch (Exception e) {
Log.e(TAG, "Got " + e.toString());
} finally {
try {
mInterface.close();
} catch (Exception e) {
// ignore
}
mInterface = null;
mHandler.sendEmptyMessage(R.string.disconnected);
Log.i(TAG, "Exiting");
}
}*/
DatagramChannel mTunnel = null;
private boolean run(InetSocketAddress server) throws Exception {
boolean connected = false;
// Create a DatagramChannel as the VPN tunnel.
mTunnel = DatagramChannel.open();
DatagramSocket s = mTunnel.socket();
// Protect the tunnel before connecting to avoid loopback.
if (!protect(s)) {
throw new IllegalStateException("Cannot protect the tunnel");
}
mTunnel.connect(server);
// For simplicity, we use the same thread for both reading and
// writing. Here we put the tunnel into non-blocking mode.
mTunnel.configureBlocking(false);
// Authenticate and configure the virtual network interface.
handshake();
// Now we are connected. Set the flag and show the message.
connected = true;
mHandler.sendEmptyMessage(R.string.connected);
new Thread ()
{
public void run ()
{
// Allocate the buffer for a single packet.
ByteBuffer packet = ByteBuffer.allocate(32767);
// Packets to be sent are queued in this input stream.
FileInputStream in = new FileInputStream(mInterface.getFileDescriptor());
// Packets received need to be written to this output stream.
FileOutputStream out = new FileOutputStream(mInterface.getFileDescriptor());
// We use a timer to determine the status of the tunnel. It
// works on both sides. A positive value means sending, and
// any other means receiving. We start with receiving.
int timer = 0;
Log.d(TAG,"tunnel open:" + mTunnel.isOpen() + " connected:" + mTunnel.isConnected());
// We keep forwarding packets till something goes wrong.
while (true) {
try
{
// Assume that we did not make any progress in this iteration.
boolean idle = true;
// Read the outgoing packet from the input stream.
int length = in.read(packet.array());
if (length > 0) {
Log.d(TAG,"got outgoing packet; length=" + length);
// Write the outgoing packet to the tunnel.
packet.limit(length);
mTunnel.write(packet);
packet.clear();
// There might be more outgoing packets.
idle = false;
// If we were receiving, switch to sending.
if (timer < 1) {
timer = 1;
}
}
// Read the incoming packet from the mTunnel.
length = mTunnel.read(packet);
if (length > 0) {
Log.d(TAG,"got inbound packet; length=" + length);
// Write the incoming packet to the output stream.
out.write(packet.array(), 0, length);
packet.clear();
// There might be more incoming packets.
idle = false;
// If we were sending, switch to receiving.
if (timer > 0) {
timer = 0;
}
}
// If we are idle or waiting for the network, sleep for a
// fraction of time to avoid busy looping.
if (idle) {
Thread.sleep(100);
// Increase the timer. This is inaccurate but good enough,
// since everything is operated in non-blocking mode.
timer += (timer > 0) ? 100 : -100;
// We are receiving for a long time but not sending.
if (timer < -15000) {
// Switch to sending.
timer = 1;
}
// We are sending for a long time but not receiving.
if (timer > 20000) {
//throw new IllegalStateException("Timed out");
//Log.d(TAG,"receiving timed out? timer=" + timer);
}
}
}
catch (Exception e)
{
Log.d(TAG,"error in tunnel",e);
}
}
}
}.start();
return connected;
}
private void handshake() throws Exception {
if (mInterface == null)
{
Builder builder = new Builder();
builder.setMtu(1500);
builder.addAddress("10.0.2.0",24);
builder.setSession("OrbotVPN");
builder.addRoute("0.0.0.0",0);
builder.addDnsServer("8.8.8.8");
// builder.addDnsServer("127.0.0.1:5400");
// Close the old interface since the parameters have been changed.
try {
mInterface.close();
} catch (Exception e) {
// ignore
}
// Create a new interface using the builder and save the parameters.
mInterface = builder.setSession(mSessionName)
.setConfigureIntent(mConfigureIntent)
.establish();
}
}
private void debugPacket(ByteBuffer packet)
{
/*
for(int i = 0; i < length; ++i)
{
byte buffer = packet.get();
Log.d(TAG, "byte:"+buffer);
}*/
int buffer = packet.get();
int version;
int headerlength;
version = buffer >> 4;
headerlength = buffer & 0x0F;
headerlength *= 4;
Log.d(TAG, "IP Version:"+version);
Log.d(TAG, "Header Length:"+headerlength);
String status = "";
status += "Header Length:"+headerlength;
buffer = packet.get(); //DSCP + EN
buffer = packet.getChar(); //Total Length
Log.d(TAG, "Total Length:"+buffer);
buffer = packet.getChar(); //Identification
buffer = packet.getChar(); //Flags + Fragment Offset
buffer = packet.get(); //Time to Live
buffer = packet.get(); //Protocol
Log.d(TAG, "Protocol:"+buffer);
status += " Protocol:"+buffer;
buffer = packet.getChar(); //Header checksum
String sourceIP = "";
buffer = packet.get(); //Source IP 1st Octet
sourceIP += buffer;
sourceIP += ".";
buffer = packet.get(); //Source IP 2nd Octet
sourceIP += buffer;
sourceIP += ".";
buffer = packet.get(); //Source IP 3rd Octet
sourceIP += buffer;
sourceIP += ".";
buffer = packet.get(); //Source IP 4th Octet
sourceIP += buffer;
Log.d(TAG, "Source IP:"+sourceIP);
status += " Source IP:"+sourceIP;
String destIP = "";
buffer = packet.get(); //Destination IP 1st Octet
destIP += buffer;
destIP += ".";
buffer = packet.get(); //Destination IP 2nd Octet
destIP += buffer;
destIP += ".";
buffer = packet.get(); //Destination IP 3rd Octet
destIP += buffer;
destIP += ".";
buffer = packet.get(); //Destination IP 4th Octet
destIP += buffer;
Log.d(TAG, "Destination IP:"+destIP);
status += " Destination IP:"+destIP;
/*
msgObj = mHandler.obtainMessage();
msgObj.obj = status;
mHandler.sendMessage(msgObj);
*/
//Log.d(TAG, "version:"+packet.getInt());
//Log.d(TAG, "version:"+packet.getInt());
//Log.d(TAG, "version:"+packet.getInt());
}
}
它还与VPN连接并在条形图顶部显示关键符号,但没有在我的服务器Interfaces.Same服务器中找到任何服务器条目我在移动网络中注册它已连接,我在我的服务器接口中找到了服务器条目 .
是否需要任何服务器实现?
我上面的VPN服务错了,还是我弄错了?
是否有其他方法使用用户名,密码和服务器ID连接VPN?
1 回答
试试这个 :