/* * Copyright (c) 2001, 2018, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package nsk.share.jpda; import java.io.*; import java.net.*; import nsk.share.*; /** * This class implements basic connection channel via TCP/IP sockets. */ class BasicSocketConnection { protected static int TRACE_LEVEL_PACKETS = 10; protected static int TRACE_LEVEL_THREADS = 20; protected static int TRACE_LEVEL_ACTIONS = 30; protected static int TRACE_LEVEL_SOCKETS = 40; protected static int TRACE_LEVEL_IO = 50; protected String name = null; protected ServerSocket serverSocket = null; protected Socket socket = null; protected InputStream sin = null; protected OutputStream sout = null; protected Process connectingProcess = null; protected volatile boolean connected = false; protected volatile boolean closed = false; protected volatile boolean connectionClosed = false; protected volatile boolean shouldStop = false; protected Log.Logger logger = null; /** * Make an empty connection with specified name. * * @param logger * Logger object for printing log messages * @param name * connection name */ public BasicSocketConnection(Log.Logger logger, String name) { this.logger = logger; this.name = name; } /** * Try to bind connection to the local port. * * @param port * port number to bind to * * @throws IOException * if error occured while binding */ protected void tryBind(int port) throws IOException { logger.trace(TRACE_LEVEL_IO, "Binding for " + name + " connection to port: " + port); serverSocket = new ServerSocket(port, 1); logger.trace(TRACE_LEVEL_IO, "Bound for " + name + " connection to port: " + port); } /** * Bind connection to the local port for specified timeout. * * @param port * port number to bind to * @param timeout * binding timeout in milliseconds * * @throws Failure * if error ocured while binding */ protected void bind(int port, long timeout) { BindException bindException = null; long timeToFinish = System.currentTimeMillis() + timeout; for (long i = 0; !shouldStop && (timeout == 0 || System.currentTimeMillis() < timeToFinish); i++) { try { tryBind(port); return; } catch (BindException e) { bindException = e; logger.display("Attempt #" + i + " to bind to port " + port + " failed:\n\t" + e); try { Thread.sleep(DebugeeBinder.CONNECT_TRY_DELAY); } catch (InterruptedException ie) { ie.printStackTrace(logger.getOutStream()); throw new Failure("Thread interrupted while binding for " + name + " connection to port " + port + ":\n\t" + ie); } } catch (IOException e) { e.printStackTrace(logger.getOutStream()); throw new Failure("Caught IOException while binding for " + name + " connection to port " + port + ":\n\t" + e); } } throw new Failure("Unable to bind for " + name + " connection to port " + port + " for " + timeout + "ms timeout:\n\t" + bindException); } /** * Accept connection at the bound port for specified timeout. * * @param timeout * accepting timeout in milliseconds * * @throws Failure * if error occured while accepting connection */ public void accept(long timeout) { int port = serverSocket.getLocalPort(); logger.trace(TRACE_LEVEL_IO, "Listening for " + name + " connection at port: " + port); socket = null; try { if (timeout > Integer.MAX_VALUE) { throw new TestBug("Too large timeout long value: " + timeout + " (can't cast it to int)"); } serverSocket.setSoTimeout((int)timeout); long waitStartTime = System.currentTimeMillis(); /* * We found that sometimes (very rarely) on Solaris ServerSocket.accept() throws InterruptedIOException * even if connection timeout (specified through ServerSocket.setSoTimeout) didn't expire. * Following code tries to catch such case and call ServerSocket.accept() while timeout didn't expire. */ do { try { socket = serverSocket.accept(); logger.trace(TRACE_LEVEL_IO, "Accepted " + name + " connection at port: " + port); } catch (InterruptedIOException e) { long interruptTime = System.currentTimeMillis(); long waitTime = interruptTime - waitStartTime; logger.display("Caught InterruptedIOException. Wait start time: " + waitStartTime + ", exception was thrown at: " + interruptTime + ", wait time: " + (interruptTime - waitStartTime) + ", actual timeout: " + timeout); // if waitTime was too small call ServerSocket.accept() one more time if (!shouldStop && (waitTime < (timeout / 2))) { logger.display("InterruptedIOException was thrown too early, trying to call ServerSocket.accept() one more time"); continue; } else { if (!shouldStop) { logger.complain("Caught InterruptedIOException while listening for " + name + " connection at port " + port + ":\n\t" + e); throw new Failure("Connection for " + name + " at port " + port + " wasn't accepted in " + timeout + "ms"); } else { logger.display("Listening was interrupted (caught InterruptedIOException while listening for " + name + " connection at port " + port + ":\n\t" + e + ")"); break; } } } } while (socket == null); } catch (IOException e) { if (!shouldStop) { e.printStackTrace(logger.getOutStream()); throw new Failure("Caught IOException while listening for " + name + " connection at port " + port + ":\n\t" + e); } else { logger.display("Listening was interrupted (caught InterruptedIOException while listening for " + name + " connection at port " + port + ":\n\t" + e + ")"); } } finally { closeServerConnection(); } if (!shouldStop) { if (socket == null) { throw new Failure("No " + name + " connection accepted at port " + port + " for " + timeout + "ms timeout"); } onConnected(); } } /** * Attach connection to the remote host and port. * * @param host * name of remote host to attach to * @param port * port number to attach to * * @throws Failure * if error occured while attaching */ public void attach(String host, int port) { try { logger.trace(TRACE_LEVEL_IO, "Attaching for " + name + " connection to host: " + host + ":" + port); socket = new Socket(host, port); socket.setTcpNoDelay(true); logger.trace(TRACE_LEVEL_IO, "Attached for " + name + " connection to host: " + host + ":" + port); } catch (IOException e) { e.printStackTrace(logger.getOutStream()); throw new Failure("Caught IOException while attaching for " + name + " connection to " + host + ":" + port + ":\n\t" + e); } if (!shouldStop) { onConnected(); } } /** * Continuously attach to the remote host for the specified timeout. * * @param host * name of remote host to attach to * @param port * port number to attach to * @param timeout * attaching timeout in milliseconds * * @throws Failure * if error occured while attaching */ public void continueAttach(String host, int port, long timeout) { socket = null; long timeToFinish = System.currentTimeMillis() + timeout; ConnectException lastException = null; logger.trace(TRACE_LEVEL_IO, "Attaching for " + name + " connection to host: " + host + ":" + port); try { for (long i = 0; !shouldStop && (timeout == 0 || System.currentTimeMillis() < timeToFinish); i++) { try { socket = new Socket(host, port); logger.trace(TRACE_LEVEL_IO, "Attached for " + name + " connection to host: " + host + ":" + port); break; } catch (ConnectException e) { logger.display("Attempt #" + i + " to attach for " + name + " connection failed:\n\t" + e); lastException = e; // check if listening process still alive if (!checkConnectingProcess()) { shouldStop = true; throw new Failure("Break attaching to " + name + " connection: " + "listening process exited"); } // sleep between attempts try { Thread.sleep(DebugeeBinder.CONNECT_TRY_DELAY); } catch (InterruptedException ie) { throw new Failure("Thread interrupted while attaching for " + name + " connection to " + host + ":" + port + ":\n\t" + ie); } } } } catch (IOException e) { e.printStackTrace(logger.getOutStream()); throw new Failure("Caught IOException while attaching for " + name + " connection to " + host + ":" + port + ":\n\t" + e); } if (!shouldStop) { if (socket == null) { throw new Failure("Unable to attach for " + name + " connection to " + host + ":" + port + " for " + timeout + "ms timeout:\n\t" + lastException); } onConnected(); } } /** * Set already bound serverSocket for further connection. */ public void setServerSocket(ServerSocket serverSocket) { this.serverSocket = serverSocket; } /** * Set already connected socket for connection. */ public void setSocket(Socket socket) { this.socket = socket; if (!shouldStop) { onConnected(); } } /** * Get socket of already established connection. */ public Socket getSocket() { return socket; } /** * Return true if another connecting process is still alive. */ public boolean checkConnectingProcess() { if (connectingProcess == null) { // no process to check return true; } try { int exitCode = connectingProcess.exitValue(); } catch (IllegalThreadStateException e) { // process is still alive return true; } // process exited return false; } /** * Set another connecting process to control if it is still alive. */ public void setConnectingProcess(Process process) { connectingProcess = process; } /** * Check if connection is established. */ public boolean isConnected() { return connected; } /** * Close socket and associated streams. */ public void close() { if (!closed) { shouldStop = true; closeConnection(); closed = true; } } /** * Send the specified byte throw the connection. */ public void writeByte(byte b) throws IOException { logger.trace(TRACE_LEVEL_IO, "Writing byte: " + b); sout.write(b); sout.flush(); logger.trace(TRACE_LEVEL_IO, "Wrote byte: " + b); } /** * Read a byte and return it or -1. */ public int readByte() throws IOException { logger.trace(TRACE_LEVEL_IO, "Reading byte"); int b = sin.read(); logger.trace(TRACE_LEVEL_IO, "Received byte: " + b); return b; } /** * Perform some actions after connection established. */ protected void onConnected() { if (!shouldStop) { setSocketOptions(); makeSocketStreams(); connected = true; } } /** * Set socket options after connection established. */ protected void setSocketOptions() { } /** * Close server socket. */ protected void closeServerConnection() { if (serverSocket != null) { try { serverSocket.close(); logger.trace(TRACE_LEVEL_IO, "ServerSocket closed: " + serverSocket); } catch (IOException e) { logger.display("# WARNING: " + "Caught IOException while closing ServerSocket of " + name + " connection:\n\t" + e); } } } /** * Close socket of connection to remote host. */ protected void closeHostConnection() { if (socket != null) { try { socket.close(); logger.trace(TRACE_LEVEL_IO, "Socket closed: " + socket); } catch (IOException e) { logger.display("# WARNING: " + "Caught IOException while closing socket of " + name + " connection:\n\t" + e); } } } /** * Close socket streams. */ protected void closeSocketStreams() { if (sout != null) { try { logger.trace(TRACE_LEVEL_IO, "Closing socket output stream: " + sout); sout.close(); logger.trace(TRACE_LEVEL_IO, "Output stream closed: " + sout); } catch (IOException e) { logger.display("# WARNING: " + "Caught IOException while closing OutputStream of " + name + " connection:\n\t" + e); } } if (sin != null) { try { logger.trace(TRACE_LEVEL_IO, "Closing socket input stream: " + sin); sin.close(); logger.trace(TRACE_LEVEL_IO, "Input stream closed: " + sin); } catch (IOException e) { logger.display("# WARNING: " + "Caught IOException while closing InputStream of" + name + " connection:\n\t" + e); } } } /** * Close sockets and associated streams. */ protected void closeConnection() { if (connectionClosed) return; logger.trace(TRACE_LEVEL_IO, "Closing " + name + " connection"); closeSocketStreams(); closeHostConnection(); closeServerConnection(); connectionClosed = true; } /** * Make up socket streams after connection established. */ protected void makeSocketStreams() { try { logger.trace(TRACE_LEVEL_IO, "Getting input/output socket streams for " + name + " connection"); sout = socket.getOutputStream(); logger.trace(TRACE_LEVEL_IO, "Got socket output stream: " + sout); sin = socket.getInputStream(); logger.trace(TRACE_LEVEL_IO, "Got socket input stream: " + sin); } catch (IOException e) { e.printStackTrace(logger.getOutStream()); throw new Failure("Caught exception while making streams for " + name + " connection:\n\t" + e); } } } // BasicSocketConnection /** * This class implements connection channel via TCP/IP sockets. After connection * established special inner threads are started, which periodically test the * connection by pinging each other. If ping timeout occurs connection is closed * and any thread waiting for read from this connection gets exception. * * @see #setPingTimeout(long) */ public class SocketConnection extends BasicSocketConnection { private static final long PING_INTERVAL = 1 * 1000; // milliseconds private static byte DATA_BYTE = (byte) 0x03; private static byte DISCONNECT_BYTE = (byte) 0x04; private final Object inLock = new Object(); private ObjectInputStream in = null; private final Object outLock = new Object(); private ObjectOutputStream out = null; private volatile long pingTimeout = 0; // don't use ping /** * Make an empty connection with specified name. * * @param log * Log object for printing log messages * @param name * connection name */ public SocketConnection(Log log, String name) { this(new Log.Logger(log, name + " connection> "), name); } /** * Make an empty connection with specified name. * * @param logger * Logger object for printing log messages * @param name * connection name */ public SocketConnection(Log.Logger logger, String name) { super(logger, name); } /** * Set ping timeout in milliseconds (0 means don't use ping at all). */ public void setPingTimeout(long timeout) { logger.display("# WARNING: Setting ping timeout for " + name + " connection ingnored: " + timeout + " ms"); pingTimeout = timeout; } /** * Returns value of current ping timeout in milliseconds (0 means ping is * not used). */ public long getPingTimeout() { return pingTimeout; } /** * Receive an object from remote host. */ public Object readObject() { if (!isConnected()) { throw new Failure("Unable to read object from not established " + name + " connection"); } try { return doReadObject(); } catch (EOFException e) { return null; } catch (Exception e) { e.printStackTrace(logger.getOutStream()); throw new Failure("Caught Exception while reading an object from " + name + " connection:\n\t" + e); } } /** * Send an object to remote host. */ public void writeObject(Object object) { if (!isConnected()) { throw new Failure("Unable to send object throw not established " + name + " connection:\n\t" + object); } try { doWriteObject(object); } catch (IOException e) { e.printStackTrace(logger.getOutStream()); throw new Failure("Caught IOException while writing an object to " + name + " connection:\n\t" + e); } } /** * Close socket and associated streams and finish all internal threads. */ public void close() { if (!closed) { // disconnect(); shouldStop = true; super.close(); closed = true; } } /** * Perform some actions after connection has established. */ protected void onConnected() { super.onConnected(); } /** * Do write an object to the connection channel. */ private void doWriteObject(Object object) throws IOException { logger.trace(TRACE_LEVEL_IO, "writing object: " + object); synchronized(outLock) { out.writeObject(object); out.flush(); } logger.trace(TRACE_LEVEL_PACKETS, "* sent: " + object); } /** * Do read an object from the connection channel. */ private Object doReadObject() throws IOException, ClassNotFoundException { logger.trace(TRACE_LEVEL_IO, "Reading object"); Object object = null; synchronized(inLock) { object = in.readObject(); } logger.trace(TRACE_LEVEL_PACKETS, "* recv: " + object); return object; } /** * Close socket streams. */ protected void closeSocketStreams() { synchronized(outLock) { if (out != null) { try { logger.trace(TRACE_LEVEL_IO, "Closing socket output stream: " + out); out.close(); logger.trace(TRACE_LEVEL_IO, "Output stream closed: " + out); } catch (IOException e) { logger.display("# WARNING: " + "Caught IOException while closing ObjectOutputStream of " + name + " connection:\n\t" + e); } } } synchronized(inLock) { if (in != null) { try { logger.trace(TRACE_LEVEL_IO, "Closing socket input stream: " + in); in.close(); logger.trace(TRACE_LEVEL_IO, "Input stream closed: " + in); } catch (IOException e) { logger.display("# WARNING: " + "Caught IOException while closing ObjectInputStream of" + name + " connection:\n\t" + e); } } } super.closeSocketStreams(); } /** * Close sockets and associated streams. */ protected void closeConnection() { if (connectionClosed) return; connected = false; shouldStop = true; super.closeConnection(); } /** * Make up object streams for socket. */ protected void makeSocketStreams() { try { logger.trace(TRACE_LEVEL_IO, "Making input/output object streams for " + name + " connection"); synchronized(outLock) { out = new ObjectOutputStream(socket.getOutputStream()); out.flush(); } logger.trace(TRACE_LEVEL_IO, "Output stream created: " + out); synchronized(inLock) { in = new ObjectInputStream(socket.getInputStream()); } logger.trace(TRACE_LEVEL_IO, "Input stream created: " + in); } catch (IOException e) { e.printStackTrace(logger.getOutStream()); throw new Failure("Caught exception while making streams for " + name + " connection:\n\t" + e); } } } // SocketConnection