public void connect() {
final String msg = "";
Thread thread = new Thread(new Runnable() {
#Override
public void run() {
try {
s = new Socket("192.168.1.3", 1337);
textView.setText("Connection acquired");
out = s.getOutputStream();
output = new PrintWriter(out);
output.println(msg);
textView.setText("message sent : " + msg.length());
output.flush();
} catch (IOException e) {
e.printStackTrace();
}
}
});
thread.start();
}
I am using the above code to connect to desired IP [192.168.1.3]... I have created another program at the other end... The problem is that the IP sometimes changes to 192.168.1.4 or 192.168.1.6... and when I use another network it changes to 192.168.43.2... now due to this I have to go every time into the code and change it manually....
Is there any function or any other thing that might search for IPs available then check if desired port exists and then connect... Thanks in advance
That's why DNS names exist. If you use an IP address, you have to use that exact address. If you use DNS, you do a name->IP lookup. Get a dynamic DNS provider and use that to give your server a name.
You really do not want to start port scanning to find open ports. You will be treated as an attacker and kicked off the network, because you really would be doing something attackers do.
I am building a server. I hope that after the Java server and the C# client are connected, I can send information from the HTML to the Java server, and then the Java server sends this information to the client.But I can't get the socket after the successful establishment in the service layer, so my Java server can only send fixed information to the client.
I tried using Class object = new Class(); object.setObject(socket); to save the socket, but when I call this object in the service layer, I get null;
I tried to save the socket using (Map) socket.put("socket", socket), but when I call this method in the service layer, I get null.
This is the code to make the socket. from SocketThread.java
public void run() {
ServerSocket serverSocket = null;
try{
serverSocket = new ServerSocket(5656);
LOGGER.info("socket server start, monitor 5656 port ! ");
Socket socket = serverSocket.accept();
new SocketClientRequest(socket).start();
LOGGER.info("send success ! ");
}catch (Exception ex){
LOGGER.error("send fail ! ");
}
try {
Thread.sleep(5000);
} catch (InterruptedException e) {
LOGGER.error("服务器延时重启失败 ! ");
}
}
This is a method of reading the information sent by the client using the socket and sending the information to the client. from SocketClientRequest.java
public void run() {
try {
//获取socket中的数据
bufferedInputStream = new
BufferedInputStream(socket.getInputStream());
byte[] clientCharStream = new byte[messageLengthBytes];
bufferedInputStream.read(clientCharStream);
System.out.println(new String(clientCharStream, "utf-8"));
OutputStream out = socket.getOutputStream();
out.write(new String("welcome_send_server!").getBytes());
} catch (IOException e) {
LOGGER.error("read massage error [{}]", e);
}
}
Create a connection when the project starts
#EnableScheduling
#SpringBootApplication
public class GzserverApplication {
public static void main(String[] args) {
SpringApplication.run(GzserverApplication.class, args);
SocketServer socketServer = new SocketServer();
socketServer.start();
}
}
Until this step, everything is fine, but the key problem is coming.
I need to send information to the client through my controller.
this is controller
#ResponseBody
#RequestMapping(value = "firstSend)
public SResult<String> firstSend(String uName, String pNum, String time){
try{
return httpService.firstSend(uName, pNum, time);
}catch (Exception ex){
LOGGER.error(ex.getMessage(), ex);
}
return SResult.failure("fail of connect");
}
this is service
public SResult<String> firstSend(String uName, String pNum, String time) throws Exception {
String token = TokenUtil.sign(uName);
System.out.println("token code : "+token);
SocketObject socketObject = new SocketObject();
Map<String, Socket> socketMap = socketObject.socket();
Socket socket1 = socketMap.get("Socket"); // is null
Socket socket2 = socketObject.getSocket(); // is null
return SResult.success(token);
}
I hope that after the connection is successfully created, the socket can be used in the service layer, and the information is sent to the client through the socket, but no matter what I do, the socket is null in the service layer.please give me a help, thank you very much
You should not be dealing with Sockets if using Spring. Spring is a very extensive abstraction layer, that lets you avoid having to deal with the nasty details that Sockets introduce.
In your controller, you call: SocketObject socketObject = new SocketObject(); This creates a new object, presumably with a null-initialized Socket object. Nowhere in this code do you pass a socket object from the main() scope to any other scope (for example using a method named setSocket(Socket socket).
However, and I cannot stress this enough, you should not use Sockets in Spring. Think about what problem you are trying to solve, and ask yourself (why do I need to send information to the client). It is likely that Spring has a module that will do this for you in a much more scalable and manageable way.
For example, perhaps you need to establish 2-way communication between the server and the client, and need to post information to the client periodically. In this case, the WebSocket protocol (and associated Spring Websocket library) might be for you.
This is likely an XY problem. If you edit your question to illustrate the functionality you are trying to implement, it may be easier to help
I am trying to create a socket connection between a .Net server application and Java Client Application.
I am getting an error from the java client application:
Connection refused: connect
Notes:
Communicating with a .Net Client Application, works fine.
I have disables the windows firewall
Undoubtedly, I am running the server application in the background and then I am running the client application
Following are my server code (C#):
public class Server
{
public Server()
{
CreateListener();
}
public void CreateListener()
{
// Create an instance of the TcpListener class.
TcpListener tcpListener = null;
IPAddress ipAddress = Dns.GetHostEntry("localhost").AddressList[0];
string output;
try
{
// Set the listener on the local IP address
// and specify the port.
tcpListener = new TcpListener(ipAddress, 13);
tcpListener.Start();
output = "Waiting for a connection...";
}
catch (Exception e)
{
output = "Error: " + e.ToString();
MessageBox.Show(output);
}
}
}
and client application code (Java):
public class smtpClient {
public void Send() {
Socket smtpSocket = null;
DataOutputStream os = null;
DataInputStream is = null;
try {
smtpSocket = new Socket("localhost", 13); // FAILURE
os = new DataOutputStream(smtpSocket.getOutputStream());
is = new DataInputStream(smtpSocket.getInputStream());
} catch (UnknownHostException e) {
System.err.println("Don't know about host: hostname");
} catch (IOException e) {
System.err.println(e.getMessage());
}
}
It fails at the following line in the Java Client Application:
smtpSocket = new Socket("localhost", 13);
I can't tell what is the issue you are facing, but you need to start with a solid foundation to discover these issues.
As a rule of thumb, you should always write one piece (typically the server) first and verify connectivity (say using telnet) and then write the other piece (typically client) and verify its connectivity.
I always keep a Standard Client and Server handy to test whether its my code or its the environment/configuration.
Below is a sample code that works fine to test connectivity.
using System;
using System.Net;
using System.Net.Sockets;
using System.Text;
using System.Threading;
class ClientServer {
static void Main() {
new Thread(() => { StartServer("localhost", 5013); }).Start();
Thread.Sleep(100);
Console.WriteLine("\nPress enter to start the client...");
Console.ReadLine();
StartClient("localhost", 5013);
}
public static void StartServer(string serverInterface, int port) {
try {
IPHostEntry hostInfo = Dns.GetHostEntry(serverInterface);
string hostName = hostInfo.HostName;
IPAddress ipAddress = hostInfo.AddressList[0];
var server = new TcpListener(ipAddress, port);
server.Start();
Console.WriteLine($"Waiting for a connection at {server.LocalEndpoint}");
Console.WriteLine("Press ctrl+c to exit server...");
while (true) {
TcpClient client = server.AcceptTcpClient();
Console.WriteLine($"Server says - Client connected: {client.Client.RemoteEndPoint}");
ThreadPool.QueueUserWorkItem((state) => {
using (var _client = (TcpClient)state)
using (NetworkStream stream = _client.GetStream()) {
string msg = stream.ReadAsciiData();
if (msg == "Hello!") {
stream.WriteAsciiData($"Time:{DateTime.Now: yyyy/MM/dd HH:mm zzz}. Server name is {hostName}");
}
}
}, client);
}
} catch (Exception e) {
Console.WriteLine(e);
}
}
public static void StartClient(string serverInterface, int port) {
Console.WriteLine("Client started...");
try {
using (var client = new TcpClient(serverInterface, port))
using (NetworkStream stream = client.GetStream()) {
Console.WriteLine("Client says - Hello!");
stream.Write(Encoding.ASCII.GetBytes("Hello!"));
string msg = stream.ReadAsciiData();
Console.WriteLine($"Client says - Message from server: Server#{client.Client.RemoteEndPoint}: {msg}");
}
} catch (Exception e) {
Console.WriteLine(e);
}
Console.WriteLine("Client exited");
}
}
static class Utils {
public static void WriteAsciiData(this NetworkStream stream, string data) {
stream.Write(Encoding.ASCII.GetBytes(data));
}
public static string ReadAsciiData(this NetworkStream stream) {
var buffer = new byte[1024];
int read = stream.Read(buffer, 0, buffer.Length);
return Encoding.ASCII.GetString(buffer, 0, read);
}
public static void Write(this NetworkStream stream, byte[] data) {
stream.Write(data, 0, data.Length);
}
}
Now to your specific problem,
The choice of port 13, is not ideal for testing. Usually all ports below 1024 are considered privileged. i.e. a firewall or antivirus might block your attempt to listen on that port
Remember that IPV6 addresses plays a role. Your machine might have that enabled or disabled based on your configuration. You want to make sure that if your server is listening on a IPv6 interface, then your client also connects on the same
Which brings us to another related point: Irrespective of you are using IPv6 interface or not, the client needs to connect to the same interface the server is listening on. This might seem obvious, but is often missed. A typical machine
has at-least 2 interfaces: One for localhost (127...* called loopback interface) and another non local (typically 10...* or 192...*, but not restricted to it). It can so happen (especially when you pick the first available interface to bind your server without knowing which one it is) that server might be listening on non loopback interface like say 192.168.1.10 interface and the client might be connecting to 127.0.0.1, and you can see why the client will get "connection refused" errors
The sample code above works and you can test your code with it. You can us telnet for a client or just my sample code. You can play around changing the serverInterface values to some surprising discoveries which are accentuated by
ipAddress = hostInfo.AddressList[0] line
Hope this helps you with your debugging
I'm trying to build a basic client-server application.
When I run both the server and the client on the same computer both manage to connect without a hitch but if I try to do so from different computers (desktop and laptop) the connection doesn't get though. The server isn't even aware that someone tried to connect to it while the client timeouts after a while. At first I assumed that it's a firewall problem but disabling the firewall completely on the server PC did not help. Tried changing ports and checked on multiple computers. Any ideas what could cause this?
I control both the server and the client and can change the code of both if necessary. The server always runs on the same PC and I'm connecting to it directly using hardcoded IP address.
This is the code of the client sending random int to the server.
public static void main(String[] args) {
Socket s = new Socket();
try {
s.connect(new InetSocketAddress("123.45.67.891", 8084), 5000);
s.getOutputStream().write(42);
s.close();
} catch (IOException e) {
e.printStackTrace();
return;
}
}
The server is slightly more complicated but considering the fact that they manage to connect while being run from the same PC I assume that the problem isn't with it.
edit: Server code (Thread per client. There shouldn't be too many of those)
public void run() {
try {
serverSocket = new ServerSocket(listenPort); //integer
} catch (IOException e) { ... }
while (shouldRun) {
try {
Socket clientSocket = serverSocket.accept(); // Blocked here while trying to connect from remote computer
//Never gets here
ConnectionHandler newConnection = connectionHandlerCreator.create(clientSocket);
connectionHandlers.add(newConnection);
newConnection.initialize();
new Thread(newConnection).start();
} catch (IOException e) { ... }
}
}
Initialize consists of the following (which latter used for I/O).
in = new BufferedReader(new InputStreamReader(clientSocket.getInputStream()));
out = new PrintWriter(clientSocket.getOutputStream(), true);
The problem is probably on your server side though: you have to make it respond to all ip's not just local one, by using the constructor:
ServerSocket(int port)
it will default accepting connections on any addresses which is not the case if you specified an IP
How do you check if you can connect to the internet via java? One way would be:
final URL url = new URL("http://www.google.com");
final URLConnection conn = url.openConnection();
... if we got here, we should have net ...
But is there something more appropriate to perform that task, especially if you need to do consecutive checks very often and a loss of internet connection is highly probable?
You should connect to the place that your actual application needs. Otherwise you're testing whether you have a connection to somewhere irrelevant (Google in this case).
In particular, if you're trying to talk to a web service, and if you're in control of the web service, it would be a good idea to have some sort of cheap "get the status" web method. That way you have a much better idea of whether your "real" call is likely to work.
In other cases, just opening a connection to a port that should be open may be enough - or sending a ping. InetAddress.isReachable may well be an appropriate API for your needs here.
The code you basically provided, plus a call to connect should be sufficient. So yeah, it could be that just Google's not available but some other site you need to contact is on but how likely is that? Also, this code should only execute when you actually fail to access your external resource (in a catch block to try and figure out what the cause of the failure was) so I'd say that if both your external resource of interest and Google are not available chances are you have a net connectivity problem.
private static boolean netIsAvailable() {
try {
final URL url = new URL("http://www.google.com");
final URLConnection conn = url.openConnection();
conn.connect();
conn.getInputStream().close();
return true;
} catch (MalformedURLException e) {
throw new RuntimeException(e);
} catch (IOException e) {
return false;
}
}
People have suggested using INetAddress.isReachable. The problem is that some sites configure their firewalls to block ICMP Ping messages. So a "ping" might fail even though the web service is accessible.
And of course, the reverse is true as well. A host may respond to a ping even though the webserver is down.
And of course, a machine may be unable to connect directly to certain (or all) web servers due to local firewall restrictions.
The fundamental problem is that "can connect to the internet" is an ill-defined question, and this kind of thing is difficult to test without:
information on the user's machine and "local" networking environment, and
information on what the app needs to access.
So generally, the simplest solution is for an app to just try to access whatever it needs to access, and fall back on human intelligence to do the diagnosis.
If you're on java 6 can use NetworkInterface to check for available network interfaces.
I.e. something like this:
Enumeration<NetworkInterface> interfaces = NetworkInterface.getNetworkInterfaces();
while (interfaces.hasMoreElements()) {
NetworkInterface interf = interfaces.nextElement();
if (interf.isUp() && !interf.isLoopback())
return true;
}
Haven't tried it myself, yet.
This code should do the job reliably.
Note that when using the try-with-resources statement we don't need to close the resources.
import java.io.IOException;
import java.net.InetSocketAddress;
import java.net.Socket;
import java.net.UnknownHostException;
public class InternetAvailabilityChecker
{
public static boolean isInternetAvailable() throws IOException
{
return isHostAvailable("google.com") || isHostAvailable("amazon.com")
|| isHostAvailable("facebook.com")|| isHostAvailable("apple.com");
}
private static boolean isHostAvailable(String hostName) throws IOException
{
try(Socket socket = new Socket())
{
int port = 80;
InetSocketAddress socketAddress = new InetSocketAddress(hostName, port);
socket.connect(socketAddress, 3000);
return true;
}
catch(UnknownHostException unknownHost)
{
return false;
}
}
}
This code:
"127.0.0.1".equals(InetAddress.getLocalHost().getHostAddress().toString());
Returns - to me - true if offline, and false, otherwise. (well, I don't know if this true to all computers).
This works much faster than the other approaches, up here.
EDIT: I found this only working, if the "flip switch" (on a laptop), or some other system-defined option, for the internet connection, is off. That's, the system itself knows not to look for any IP addresses.
InetAddress.isReachable sometime return false if internet connection exist.
An alternative method to check internet availability in java is : This function make a real ICMP ECHO ping.
public static boolean isReachableByPing(String host) {
try{
String cmd = "";
if(System.getProperty("os.name").startsWith("Windows")) {
// For Windows
cmd = "ping -n 1 " + host;
} else {
// For Linux and OSX
cmd = "ping -c 1 " + host;
}
Process myProcess = Runtime.getRuntime().exec(cmd);
myProcess.waitFor();
if(myProcess.exitValue() == 0) {
return true;
} else {
return false;
}
} catch( Exception e ) {
e.printStackTrace();
return false;
}
}
I usually break it down into three steps.
I first see if I can resolve the domain name to an IP address.
I then try to connect via TCP (port 80 and/or 443) and close gracefully.
Finally, I'll issue an HTTP request and check for a 200 response back.
If it fails at any point, I provide the appropriate error message to the user.
URL url=new URL("http://[any domain]");
URLConnection con=url.openConnection();
/*now errors WILL arise here, i hav tried myself and it always shows "connected" so we'll open an InputStream on the connection, this way we know for sure that we're connected to d internet */
/* Get input stream */
con.getInputStream();
Put the above statements in try catch blocks and if an exception in caught means that there's no internet connection established. :-)
The code using NetworkInterface to wait for the network worked for me until I switched from fixed network address to DHCP. A slight enhancement makes it work also with DHCP:
Enumeration<NetworkInterface> interfaces = NetworkInterface.getNetworkInterfaces();
while (interfaces.hasMoreElements()) {
NetworkInterface interf = interfaces.nextElement();
if (interf.isUp() && !interf.isLoopback()) {
List<InterfaceAddress> adrs = interf.getInterfaceAddresses();
for (Iterator<InterfaceAddress> iter = adrs.iterator(); iter.hasNext();) {
InterfaceAddress adr = iter.next();
InetAddress inadr = adr.getAddress();
if (inadr instanceof Inet4Address) return true;
}
}
}
This works for Java 7 in openSuse 13.1 for IPv4 network. The problem with the original code is that although the interface was up after resuming from suspend, an IPv4 network address was not yet assigned. After waiting for this assignment, the program can connect to servers. But I have no idea what to do in case of IPv6.
1) Figure out where your application needs to be connecting to.
2) Set up a worker process to check InetAddress.isReachable to monitor the connection to that address.
This code is contained within a jUnit test class I use to test if a connection is available. I always receive a connection, but if you check the content length it should be -1 if not known :
try {
URL url = new URL("http://www.google.com");
URLConnection connection = url.openConnection();
if(connection.getContentLength() == -1){
fail("Failed to verify connection");
}
}
catch (IOException e) {
fail("Failed to open a connection");
e.printStackTrace();
}
public boolean checkInternetConnection()
{
boolean status = false;
Socket sock = new Socket();
InetSocketAddress address = new InetSocketAddress("www.google.com", 80);
try
{
sock.connect(address, 3000);
if(sock.isConnected()) status = true;
}
catch(Exception e)
{
status = false;
}
finally
{
try
{
sock.close();
}
catch(Exception e){}
}
return status;
}
You can simply write like this
import java.net.InetAddress;
import java.net.UnknownHostException;
public class Main {
private static final String HOST = "localhost";
public static void main(String[] args) throws UnknownHostException {
boolean isConnected = !HOST.equals(InetAddress.getLocalHost().getHostAddress().toString());
if (isConnected) System.out.println("Connected");
else System.out.println("Not connected");
}
}
There are (nowadays) APIs for this, but they are platform specific:
On Android ConnectivityManager (https://developer.android.com/training/basics/network-ops/reading-network-state) does everything you need.
On Windows INetworkListManager::GetConnectivity (for which you'll need a JNI)
On generic Linux, you are probably stuck with testing if you have access to a DNS server and Google, as above.
there is probably an Apple way to do this as well
(I'd use the specific tools where available)
This have worked well for me.
try{
InetAddress addr = InetAddress.getByName("google.com" );
}catch(IOException e){
JOptionPane.showMessageDialog(new JFrame(),"No Internet connection.\nTry again later", "Network Error", JOptionPane.ERROR_MESSAGE);
}
There is also a gradle option --offline which maybe results in the behavior you want.
The following piece of code allows us to get the status of the network on our Android device
public class MainActivity extends AppCompatActivity {
#Override
protected void onCreate(Bundle savedInstanceState) {
super.onCreate(savedInstanceState);
setContentView(R.layout.activity_main);
TextView mtv=findViewById(R.id.textv);
ConnectivityManager connectivityManager=
(ConnectivityManager) this.getSystemService(Context.CONNECTIVITY_SERVICE);
if (Build.VERSION.SDK_INT >= Build.VERSION_CODES.M) {
if(((Network)connectivityManager.getActiveNetwork())!=null)
mtv.setText("true");
else
mtv.setText("fasle");
}
}
}