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JDK 11 java.base.jmod - Base Module
JDK 11 java.base.jmod is the JMOD file for JDK 11 Base module.
JDK 11 Base module compiled class files are stored in \fyicenter\jdk-11.0.1\jmods\java.base.jmod.
JDK 11 Base module compiled class files are also linked and stored in the \fyicenter\jdk-11.0.1\lib\modules JImage file.
JDK 11 Base module source code files are stored in \fyicenter\jdk-11.0.1\lib\src.zip\java.base.
You can click and view the content of each source code file in the list below.
✍: FYIcenter
⏎ java/net/AbstractPlainSocketImpl.java
/* * Copyright (c) 1995, 2018, Oracle and/or its affiliates. All rights reserved. * ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. * * * * * * * * * * * * * * * * * * * * */ package java.net; import java.io.FileDescriptor; import java.io.IOException; import java.io.InputStream; import java.io.OutputStream; import java.util.Collections; import java.util.HashSet; import java.util.Set; import sun.net.ConnectionResetException; import sun.net.NetHooks; import sun.net.ResourceManager; import sun.net.util.SocketExceptions; /** * Default Socket Implementation. This implementation does * not implement any security checks. * Note this class should <b>NOT</b> be public. * * @author Steven B. Byrne */ abstract class AbstractPlainSocketImpl extends SocketImpl { /* instance variable for SO_TIMEOUT */ int timeout; // timeout in millisec // traffic class private int trafficClass; private boolean shut_rd = false; private boolean shut_wr = false; private SocketInputStream socketInputStream = null; private SocketOutputStream socketOutputStream = null; /* number of threads using the FileDescriptor */ protected int fdUseCount = 0; /* lock when increment/decrementing fdUseCount */ protected final Object fdLock = new Object(); /* indicates a close is pending on the file descriptor */ protected boolean closePending = false; /* indicates connection reset state */ private volatile boolean connectionReset; /* whether this Socket is a stream (TCP) socket or not (UDP) */ protected boolean stream; /** * Load net library into runtime. */ static { java.security.AccessController.doPrivileged( new java.security.PrivilegedAction<>() { public Void run() { System.loadLibrary("net"); return null; } }); } private static volatile boolean checkedReusePort; private static volatile boolean isReusePortAvailable; /** * Tells whether SO_REUSEPORT is supported. */ static boolean isReusePortAvailable() { if (!checkedReusePort) { isReusePortAvailable = isReusePortAvailable0(); checkedReusePort = true; } return isReusePortAvailable; } /** * Returns a set of SocketOptions supported by this impl and by this impl's * socket (Socket or ServerSocket) * * @return a Set of SocketOptions */ @Override protected Set<SocketOption<?>> supportedOptions() { Set<SocketOption<?>> options; if (isReusePortAvailable()) { options = new HashSet<>(); options.addAll(super.supportedOptions()); options.add(StandardSocketOptions.SO_REUSEPORT); options = Collections.unmodifiableSet(options); } else { options = super.supportedOptions(); } return options; } /** * Creates a socket with a boolean that specifies whether this * is a stream socket (true) or an unconnected UDP socket (false). */ protected synchronized void create(boolean stream) throws IOException { this.stream = stream; if (!stream) { ResourceManager.beforeUdpCreate(); // only create the fd after we know we will be able to create the socket fd = new FileDescriptor(); try { socketCreate(false); SocketCleanable.register(fd); } catch (IOException ioe) { ResourceManager.afterUdpClose(); fd = null; throw ioe; } } else { fd = new FileDescriptor(); socketCreate(true); SocketCleanable.register(fd); } if (socket != null) socket.setCreated(); if (serverSocket != null) serverSocket.setCreated(); } /** * Creates a socket and connects it to the specified port on * the specified host. * @param host the specified host * @param port the specified port */ protected void connect(String host, int port) throws UnknownHostException, IOException { boolean connected = false; try { InetAddress address = InetAddress.getByName(host); this.port = port; this.address = address; connectToAddress(address, port, timeout); connected = true; } finally { if (!connected) { try { close(); } catch (IOException ioe) { /* Do nothing. If connect threw an exception then it will be passed up the call stack */ } } } } /** * Creates a socket and connects it to the specified address on * the specified port. * @param address the address * @param port the specified port */ protected void connect(InetAddress address, int port) throws IOException { this.port = port; this.address = address; try { connectToAddress(address, port, timeout); return; } catch (IOException e) { // everything failed close(); throw e; } } /** * Creates a socket and connects it to the specified address on * the specified port. * @param address the address * @param timeout the timeout value in milliseconds, or zero for no timeout. * @throws IOException if connection fails * @throws IllegalArgumentException if address is null or is a * SocketAddress subclass not supported by this socket * @since 1.4 */ protected void connect(SocketAddress address, int timeout) throws IOException { boolean connected = false; try { if (address == null || !(address instanceof InetSocketAddress)) throw new IllegalArgumentException("unsupported address type"); InetSocketAddress addr = (InetSocketAddress) address; if (addr.isUnresolved()) throw new UnknownHostException(addr.getHostName()); this.port = addr.getPort(); this.address = addr.getAddress(); connectToAddress(this.address, port, timeout); connected = true; } finally { if (!connected) { try { close(); } catch (IOException ioe) { /* Do nothing. If connect threw an exception then it will be passed up the call stack */ } } } } private void connectToAddress(InetAddress address, int port, int timeout) throws IOException { if (address.isAnyLocalAddress()) { doConnect(InetAddress.getLocalHost(), port, timeout); } else { doConnect(address, port, timeout); } } public void setOption(int opt, Object val) throws SocketException { if (isClosedOrPending()) { throw new SocketException("Socket Closed"); } boolean on = true; switch (opt) { /* check type safety b4 going native. These should never * fail, since only java.Socket* has access to * PlainSocketImpl.setOption(). */ case SO_LINGER: if (val == null || (!(val instanceof Integer) && !(val instanceof Boolean))) throw new SocketException("Bad parameter for option"); if (val instanceof Boolean) { /* true only if disabling - enabling should be Integer */ on = false; } break; case SO_TIMEOUT: if (val == null || (!(val instanceof Integer))) throw new SocketException("Bad parameter for SO_TIMEOUT"); int tmp = ((Integer) val).intValue(); if (tmp < 0) throw new IllegalArgumentException("timeout < 0"); timeout = tmp; break; case IP_TOS: if (val == null || !(val instanceof Integer)) { throw new SocketException("bad argument for IP_TOS"); } trafficClass = ((Integer)val).intValue(); break; case SO_BINDADDR: throw new SocketException("Cannot re-bind socket"); case TCP_NODELAY: if (val == null || !(val instanceof Boolean)) throw new SocketException("bad parameter for TCP_NODELAY"); on = ((Boolean)val).booleanValue(); break; case SO_SNDBUF: case SO_RCVBUF: if (val == null || !(val instanceof Integer) || !(((Integer)val).intValue() > 0)) { throw new SocketException("bad parameter for SO_SNDBUF " + "or SO_RCVBUF"); } break; case SO_KEEPALIVE: if (val == null || !(val instanceof Boolean)) throw new SocketException("bad parameter for SO_KEEPALIVE"); on = ((Boolean)val).booleanValue(); break; case SO_OOBINLINE: if (val == null || !(val instanceof Boolean)) throw new SocketException("bad parameter for SO_OOBINLINE"); on = ((Boolean)val).booleanValue(); break; case SO_REUSEADDR: if (val == null || !(val instanceof Boolean)) throw new SocketException("bad parameter for SO_REUSEADDR"); on = ((Boolean)val).booleanValue(); break; case SO_REUSEPORT: if (val == null || !(val instanceof Boolean)) throw new SocketException("bad parameter for SO_REUSEPORT"); if (!supportedOptions().contains(StandardSocketOptions.SO_REUSEPORT)) throw new UnsupportedOperationException("unsupported option"); on = ((Boolean)val).booleanValue(); break; default: throw new SocketException("unrecognized TCP option: " + opt); } socketSetOption(opt, on, val); } public Object getOption(int opt) throws SocketException { if (isClosedOrPending()) { throw new SocketException("Socket Closed"); } if (opt == SO_TIMEOUT) { return timeout; } int ret = 0; /* * The native socketGetOption() knows about 3 options. * The 32 bit value it returns will be interpreted according * to what we're asking. A return of -1 means it understands * the option but its turned off. It will raise a SocketException * if "opt" isn't one it understands. */ switch (opt) { case TCP_NODELAY: ret = socketGetOption(opt, null); return Boolean.valueOf(ret != -1); case SO_OOBINLINE: ret = socketGetOption(opt, null); return Boolean.valueOf(ret != -1); case SO_LINGER: ret = socketGetOption(opt, null); return (ret == -1) ? Boolean.FALSE: (Object)(ret); case SO_REUSEADDR: ret = socketGetOption(opt, null); return Boolean.valueOf(ret != -1); case SO_BINDADDR: InetAddressContainer in = new InetAddressContainer(); ret = socketGetOption(opt, in); return in.addr; case SO_SNDBUF: case SO_RCVBUF: ret = socketGetOption(opt, null); return ret; case IP_TOS: try { ret = socketGetOption(opt, null); if (ret == -1) { // ipv6 tos return trafficClass; } else { return ret; } } catch (SocketException se) { // TODO - should make better effort to read TOS or TCLASS return trafficClass; // ipv6 tos } case SO_KEEPALIVE: ret = socketGetOption(opt, null); return Boolean.valueOf(ret != -1); case SO_REUSEPORT: if (!supportedOptions().contains(StandardSocketOptions.SO_REUSEPORT)) { throw new UnsupportedOperationException("unsupported option"); } ret = socketGetOption(opt, null); return Boolean.valueOf(ret != -1); // should never get here default: return null; } } /** * The workhorse of the connection operation. Tries several times to * establish a connection to the given <host, port>. If unsuccessful, * throws an IOException indicating what went wrong. */ synchronized void doConnect(InetAddress address, int port, int timeout) throws IOException { synchronized (fdLock) { if (!closePending && (socket == null || !socket.isBound())) { NetHooks.beforeTcpConnect(fd, address, port); } } try { acquireFD(); try { socketConnect(address, port, timeout); /* socket may have been closed during poll/select */ synchronized (fdLock) { if (closePending) { throw new SocketException ("Socket closed"); } } // If we have a ref. to the Socket, then sets the flags // created, bound & connected to true. // This is normally done in Socket.connect() but some // subclasses of Socket may call impl.connect() directly! if (socket != null) { socket.setBound(); socket.setConnected(); } } finally { releaseFD(); } } catch (IOException e) { close(); throw SocketExceptions.of(e, new InetSocketAddress(address, port)); } } /** * Binds the socket to the specified address of the specified local port. * @param address the address * @param lport the port */ protected synchronized void bind(InetAddress address, int lport) throws IOException { synchronized (fdLock) { if (!closePending && (socket == null || !socket.isBound())) { NetHooks.beforeTcpBind(fd, address, lport); } } socketBind(address, lport); if (socket != null) socket.setBound(); if (serverSocket != null) serverSocket.setBound(); } /** * Listens, for a specified amount of time, for connections. * @param count the amount of time to listen for connections */ protected synchronized void listen(int count) throws IOException { socketListen(count); } /** * Accepts connections. * @param s the connection */ protected void accept(SocketImpl s) throws IOException { acquireFD(); try { socketAccept(s); } finally { releaseFD(); } } /** * Gets an InputStream for this socket. */ protected synchronized InputStream getInputStream() throws IOException { synchronized (fdLock) { if (isClosedOrPending()) throw new IOException("Socket Closed"); if (shut_rd) throw new IOException("Socket input is shutdown"); if (socketInputStream == null) socketInputStream = new SocketInputStream(this); } return socketInputStream; } void setInputStream(SocketInputStream in) { socketInputStream = in; } /** * Gets an OutputStream for this socket. */ protected synchronized OutputStream getOutputStream() throws IOException { synchronized (fdLock) { if (isClosedOrPending()) throw new IOException("Socket Closed"); if (shut_wr) throw new IOException("Socket output is shutdown"); if (socketOutputStream == null) socketOutputStream = new SocketOutputStream(this); } return socketOutputStream; } void setFileDescriptor(FileDescriptor fd) { this.fd = fd; } void setAddress(InetAddress address) { this.address = address; } void setPort(int port) { this.port = port; } void setLocalPort(int localport) { this.localport = localport; } /** * Returns the number of bytes that can be read without blocking. */ protected synchronized int available() throws IOException { if (isClosedOrPending()) { throw new IOException("Stream closed."); } /* * If connection has been reset or shut down for input, then return 0 * to indicate there are no buffered bytes. */ if (isConnectionReset() || shut_rd) { return 0; } /* * If no bytes available and we were previously notified * of a connection reset then we move to the reset state. * * If are notified of a connection reset then check * again if there are bytes buffered on the socket. */ int n = 0; try { n = socketAvailable(); } catch (ConnectionResetException exc1) { setConnectionReset(); } return n; } /** * Closes the socket. */ protected void close() throws IOException { synchronized(fdLock) { if (fd != null) { if (!stream) { ResourceManager.afterUdpClose(); } if (fdUseCount == 0) { if (closePending) { return; } closePending = true; /* * We close the FileDescriptor in two-steps - first the * "pre-close" which closes the socket but doesn't * release the underlying file descriptor. This operation * may be lengthy due to untransmitted data and a long * linger interval. Once the pre-close is done we do the * actual socket to release the fd. */ try { socketPreClose(); } finally { socketClose(); } fd = null; return; } else { /* * If a thread has acquired the fd and a close * isn't pending then use a deferred close. * Also decrement fdUseCount to signal the last * thread that releases the fd to close it. */ if (!closePending) { closePending = true; fdUseCount--; socketPreClose(); } } } } } void reset() throws IOException { if (fd != null) { socketClose(); } fd = null; super.reset(); } /** * Shutdown read-half of the socket connection; */ protected void shutdownInput() throws IOException { if (fd != null) { socketShutdown(SHUT_RD); if (socketInputStream != null) { socketInputStream.setEOF(true); } shut_rd = true; } } /** * Shutdown write-half of the socket connection; */ protected void shutdownOutput() throws IOException { if (fd != null) { socketShutdown(SHUT_WR); shut_wr = true; } } protected boolean supportsUrgentData () { return true; } protected void sendUrgentData (int data) throws IOException { if (fd == null) { throw new IOException("Socket Closed"); } socketSendUrgentData (data); } /* * "Acquires" and returns the FileDescriptor for this impl * * A corresponding releaseFD is required to "release" the * FileDescriptor. */ FileDescriptor acquireFD() { synchronized (fdLock) { fdUseCount++; return fd; } } /* * "Release" the FileDescriptor for this impl. * * If the use count goes to -1 then the socket is closed. */ void releaseFD() { synchronized (fdLock) { fdUseCount--; if (fdUseCount == -1) { if (fd != null) { try { socketClose(); } catch (IOException e) { } finally { fd = null; } } } } } boolean isConnectionReset() { return connectionReset; } void setConnectionReset() { connectionReset = true; } /* * Return true if already closed or close is pending */ public boolean isClosedOrPending() { /* * Lock on fdLock to ensure that we wait if a * close is in progress. */ synchronized (fdLock) { if (closePending || (fd == null)) { return true; } else { return false; } } } /* * Return the current value of SO_TIMEOUT */ public int getTimeout() { return timeout; } /* * "Pre-close" a socket by dup'ing the file descriptor - this enables * the socket to be closed without releasing the file descriptor. */ private void socketPreClose() throws IOException { socketClose0(true); } /* * Close the socket (and release the file descriptor). */ protected void socketClose() throws IOException { SocketCleanable.unregister(fd); socketClose0(false); } abstract void socketCreate(boolean isServer) throws IOException; abstract void socketConnect(InetAddress address, int port, int timeout) throws IOException; abstract void socketBind(InetAddress address, int port) throws IOException; abstract void socketListen(int count) throws IOException; abstract void socketAccept(SocketImpl s) throws IOException; abstract int socketAvailable() throws IOException; abstract void socketClose0(boolean useDeferredClose) throws IOException; abstract void socketShutdown(int howto) throws IOException; abstract void socketSetOption(int cmd, boolean on, Object value) throws SocketException; abstract int socketGetOption(int opt, Object iaContainerObj) throws SocketException; abstract void socketSendUrgentData(int data) throws IOException; public static final int SHUT_RD = 0; public static final int SHUT_WR = 1; private static native boolean isReusePortAvailable0(); }
⏎ java/net/AbstractPlainSocketImpl.java
Or download all of them as a single archive file:
File name: java.base-11.0.1-src.zip File size: 8740354 bytes Release date: 2018-11-04 Download
2020-05-29, 246271👍, 0💬
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