A selector provider is a concrete subclass of this class that has a * zero-argument constructor and implements the abstract methods specified * below. A given invocation of the Java virtual machine maintains a single * system-wide default provider instance, which is returned by the {@link * #provider() provider} method. The first invocation of that method will locate * the default provider as specified below. * *
The system-wide default provider is used by the static open * methods of the {@link java.nio.channels.DatagramChannel#open * DatagramChannel}, {@link java.nio.channels.Pipe#open Pipe}, {@link * java.nio.channels.Selector#open Selector}, {@link * java.nio.channels.ServerSocketChannel#open ServerSocketChannel}, and {@link * java.nio.channels.SocketChannel#open SocketChannel} classes. It is also * used by the {@link java.lang.System#inheritedChannel System.inheritedChannel()} * method. A program may make use of a provider other than the default provider * by instantiating that provider and then directly invoking the open * methods defined in this class. * *
All of the methods in this class are safe for use by multiple concurrent * threads.
* * * @author Mark Reinhold * @author JSR-51 Expert Group * @since 1.4 */ public abstract class SelectorProvider { private static final Object lock = new Object(); private static SelectorProvider provider = null; private static Void checkPermission() { SecurityManager sm = System.getSecurityManager(); if (sm != null) sm.checkPermission(new RuntimePermission("selectorProvider")); return null; } private SelectorProvider(Void ignore) { } /** * Initializes a new instance of this class. * * @throws SecurityException * If a security manager has been installed and it denies * {@link RuntimePermission}("selectorProvider") */ protected SelectorProvider() { this(checkPermission()); } private static boolean loadProviderFromProperty() { String cn = System.getProperty("java.nio.channels.spi.SelectorProvider"); if (cn == null) return false; try { Class c = Class.forName(cn, true, ClassLoader.getSystemClassLoader()); provider = (SelectorProvider)c.newInstance(); return true; } catch (ClassNotFoundException x) { throw new ServiceConfigurationError(null, x); } catch (IllegalAccessException x) { throw new ServiceConfigurationError(null, x); } catch (InstantiationException x) { throw new ServiceConfigurationError(null, x); } catch (SecurityException x) { throw new ServiceConfigurationError(null, x); } } private static boolean loadProviderAsService() { ServiceLoaderThe first invocation of this method locates the default provider * object as follows:
* *If the system property * java.nio.channels.spi.SelectorProvider is defined then it is * taken to be the fully-qualified name of a concrete provider class. * The class is loaded and instantiated; if this process fails then an * unspecified error is thrown.
If a provider class has been installed in a jar file that is * visible to the system class loader, and that jar file contains a * provider-configuration file named * java.nio.channels.spi.SelectorProvider in the resource * directory META-INF/services, then the first class name * specified in that file is taken. The class is loaded and * instantiated; if this process fails then an unspecified error is * thrown.
Finally, if no provider has been specified by any of the above * means then the system-default provider class is instantiated and the * result is returned.
Subsequent invocations of this method return the provider that was * returned by the first invocation.
* * @return The system-wide default selector provider */ public static SelectorProvider provider() { synchronized (lock) { if (provider != null) return provider; return AccessController.doPrivileged( new PrivilegedActionOn many operating systems a process, such as a Java virtual * machine, can be started in a manner that allows the process to * inherit a channel from the entity that created the process. The * manner in which this is done is system dependent, as are the * possible entities to which the channel may be connected. For example, * on UNIX systems, the Internet services daemon (inetd) is used to * start programs to service requests when a request arrives on an * associated network port. In this example, the process that is started, * inherits a channel representing a network socket. * *
In cases where the inherited channel represents a network socket * then the {@link java.nio.channels.Channel Channel} type returned * by this method is determined as follows: * *
If the inherited channel represents a stream-oriented connected * socket then a {@link java.nio.channels.SocketChannel SocketChannel} is * returned. The socket channel is, at least initially, in blocking * mode, bound to a socket address, and connected to a peer. *
If the inherited channel represents a stream-oriented listening * socket then a {@link java.nio.channels.ServerSocketChannel * ServerSocketChannel} is returned. The server-socket channel is, at * least initially, in blocking mode, and bound to a socket address. *
If the inherited channel is a datagram-oriented socket * then a {@link java.nio.channels.DatagramChannel DatagramChannel} is * returned. The datagram channel is, at least initially, in blocking * mode, and bound to a socket address. *
In addition to the network-oriented channels described, this method * may return other kinds of channels in the future. * *
The first invocation of this method creates the channel that is * returned. Subsequent invocations of this method return the same * channel.
* * @return The inherited channel, if any, otherwise null. * * @throws IOException * If an I/O error occurs * * @throws SecurityException * If a security manager has been installed and it denies * {@link RuntimePermission}("inheritedChannel") * * @since 1.5 */ public Channel inheritedChannel() throws IOException { return null; } }