jdk/src/jdk.naming.rmi/share/classes/com/sun/jndi/rmi/registry/RegistryContext.java
8066642: Fix deprecation warnings in jdk.naming module
Reviewed-by: alanb, chegar
/*
* Copyright (c) 1999, 2014, 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. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
* by Oracle in the LICENSE file that accompanied this code.
*
* 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
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*/
package com.sun.jndi.rmi.registry;
import java.util.Hashtable;
import java.util.Properties;
import java.rmi.*;
import java.rmi.server.*;
import java.rmi.registry.Registry;
import java.rmi.registry.LocateRegistry;
import javax.naming.*;
import javax.naming.spi.NamingManager;
/**
* A RegistryContext is a context representing a remote RMI registry.
*
* @author Scott Seligman
*/
public class RegistryContext implements Context, Referenceable {
private Hashtable<String, Object> environment;
private Registry registry;
private String host;
private int port;
private static final NameParser nameParser = new AtomicNameParser();
private static final String SOCKET_FACTORY = "com.sun.jndi.rmi.factory.socket";
Reference reference = null; // ref used to create this context, if any
// Environment property that, if set, indicates that a security
// manager should be installed (if none is already in place).
public static final String SECURITY_MGR =
"java.naming.rmi.security.manager";
/**
* Returns a context for the registry at a given host and port.
* If "host" is null, uses default host.
* If "port" is non-positive, uses default port.
* Cloning of "env" is handled by caller; see comments within
* RegistryContextFactory.getObjectInstance(), for example.
*/
@SuppressWarnings("unchecked")
public RegistryContext(String host, int port, Hashtable<?, ?> env)
throws NamingException
{
environment = (env == null)
? new Hashtable<String, Object>(5)
: (Hashtable<String, Object>) env;
if (environment.get(SECURITY_MGR) != null) {
installSecurityMgr();
}
// chop off '[' and ']' in an IPv6 literal address
if ((host != null) && (host.charAt(0) == '[')) {
host = host.substring(1, host.length() - 1);
}
RMIClientSocketFactory socketFactory =
(RMIClientSocketFactory) environment.get(SOCKET_FACTORY);
registry = getRegistry(host, port, socketFactory);
this.host = host;
this.port = port;
}
/**
* Returns a clone of a registry context. The context's private state
* is independent of the original's (so closing one context, for example,
* won't close the other).
*/
// %%% Alternatively, this could be done with a clone() method.
@SuppressWarnings("unchecked") // clone()
RegistryContext(RegistryContext ctx) {
environment = (Hashtable<String, Object>)ctx.environment.clone();
registry = ctx.registry;
host = ctx.host;
port = ctx.port;
reference = ctx.reference;
}
protected void finalize() {
close();
}
public Object lookup(Name name) throws NamingException {
if (name.isEmpty()) {
return (new RegistryContext(this));
}
Remote obj;
try {
obj = registry.lookup(name.get(0));
} catch (NotBoundException e) {
throw (new NameNotFoundException(name.get(0)));
} catch (RemoteException e) {
throw (NamingException)wrapRemoteException(e).fillInStackTrace();
}
return (decodeObject(obj, name.getPrefix(1)));
}
public Object lookup(String name) throws NamingException {
return lookup(new CompositeName(name));
}
/**
* If the object to be bound is both Remote and Referenceable, binds the
* object itself, not its Reference.
*/
public void bind(Name name, Object obj) throws NamingException {
if (name.isEmpty()) {
throw (new InvalidNameException(
"RegistryContext: Cannot bind empty name"));
}
try {
registry.bind(name.get(0), encodeObject(obj, name.getPrefix(1)));
} catch (AlreadyBoundException e) {
NamingException ne = new NameAlreadyBoundException(name.get(0));
ne.setRootCause(e);
throw ne;
} catch (RemoteException e) {
throw (NamingException)wrapRemoteException(e).fillInStackTrace();
}
}
public void bind(String name, Object obj) throws NamingException {
bind(new CompositeName(name), obj);
}
public void rebind(Name name, Object obj) throws NamingException {
if (name.isEmpty()) {
throw (new InvalidNameException(
"RegistryContext: Cannot rebind empty name"));
}
try {
registry.rebind(name.get(0), encodeObject(obj, name.getPrefix(1)));
} catch (RemoteException e) {
throw (NamingException)wrapRemoteException(e).fillInStackTrace();
}
}
public void rebind(String name, Object obj) throws NamingException {
rebind(new CompositeName(name), obj);
}
public void unbind(Name name) throws NamingException {
if (name.isEmpty()) {
throw (new InvalidNameException(
"RegistryContext: Cannot unbind empty name"));
}
try {
registry.unbind(name.get(0));
} catch (NotBoundException e) {
// method is idempotent
} catch (RemoteException e) {
throw (NamingException)wrapRemoteException(e).fillInStackTrace();
}
}
public void unbind(String name) throws NamingException {
unbind(new CompositeName(name));
}
/**
* Rename is implemented by this sequence of operations:
* lookup, bind, unbind. The sequence is not performed atomically.
*/
public void rename(Name oldName, Name newName) throws NamingException {
bind(newName, lookup(oldName));
unbind(oldName);
}
public void rename(String name, String newName) throws NamingException {
rename(new CompositeName(name), new CompositeName(newName));
}
public NamingEnumeration<NameClassPair> list(Name name) throws
NamingException {
if (!name.isEmpty()) {
throw (new InvalidNameException(
"RegistryContext: can only list \"\""));
}
try {
String[] names = registry.list();
return (new NameClassPairEnumeration(names));
} catch (RemoteException e) {
throw (NamingException)wrapRemoteException(e).fillInStackTrace();
}
}
public NamingEnumeration<NameClassPair> list(String name) throws
NamingException {
return list(new CompositeName(name));
}
public NamingEnumeration<Binding> listBindings(Name name)
throws NamingException
{
if (!name.isEmpty()) {
throw (new InvalidNameException(
"RegistryContext: can only list \"\""));
}
try {
String[] names = registry.list();
return (new BindingEnumeration(this, names));
} catch (RemoteException e) {
throw (NamingException)wrapRemoteException(e).fillInStackTrace();
}
}
public NamingEnumeration<Binding> listBindings(String name) throws
NamingException {
return listBindings(new CompositeName(name));
}
public void destroySubcontext(Name name) throws NamingException {
throw (new OperationNotSupportedException());
}
public void destroySubcontext(String name) throws NamingException {
throw (new OperationNotSupportedException());
}
public Context createSubcontext(Name name) throws NamingException {
throw (new OperationNotSupportedException());
}
public Context createSubcontext(String name) throws NamingException {
throw (new OperationNotSupportedException());
}
public Object lookupLink(Name name) throws NamingException {
return lookup(name);
}
public Object lookupLink(String name) throws NamingException {
return lookup(name);
}
public NameParser getNameParser(Name name) throws NamingException {
return nameParser;
}
public NameParser getNameParser(String name) throws NamingException {
return nameParser;
}
public Name composeName(Name name, Name prefix) throws NamingException {
Name result = (Name)prefix.clone();
return result.addAll(name);
}
public String composeName(String name, String prefix)
throws NamingException
{
return composeName(new CompositeName(name),
new CompositeName(prefix)).toString();
}
public Object removeFromEnvironment(String propName)
throws NamingException
{
return environment.remove(propName);
}
public Object addToEnvironment(String propName, Object propVal)
throws NamingException
{
if (propName.equals(SECURITY_MGR)) {
installSecurityMgr();
}
return environment.put(propName, propVal);
}
@SuppressWarnings("unchecked") // clone()
public Hashtable<String, Object> getEnvironment() throws NamingException {
return (Hashtable<String, Object>)environment.clone();
}
public void close() {
environment = null;
registry = null;
// &&& If we were caching registry connections, we would probably
// uncache this one now.
}
public String getNameInNamespace() {
return ""; // Registry has an empty name
}
/**
* Returns an RMI registry reference for this context.
*<p>
* If this context was created from a reference, that reference is
* returned. Otherwise, an exception is thrown if the registry's
* host is "localhost" or the default (null). Although this could
* possibly make for a valid reference, it's far more likely to be
* an easily made error.
*
* @see RegistryContextFactory
*/
public Reference getReference() throws NamingException {
if (reference != null) {
return (Reference)reference.clone(); // %%% clone the addrs too?
}
if (host == null || host.equals("localhost")) {
throw (new ConfigurationException(
"Cannot create a reference for an RMI registry whose " +
"host was unspecified or specified as \"localhost\""));
}
String url = "rmi://";
// Enclose IPv6 literal address in '[' and ']'
url = (host.indexOf(':') > -1) ? url + "[" + host + "]" :
url + host;
if (port > 0) {
url += ":" + Integer.toString(port);
}
RefAddr addr = new StringRefAddr(RegistryContextFactory.ADDRESS_TYPE,
url);
return (new Reference(RegistryContext.class.getName(),
addr,
RegistryContextFactory.class.getName(),
null));
}
/**
* Wrap a RemoteException inside a NamingException.
*/
public static NamingException wrapRemoteException(RemoteException re) {
NamingException ne;
if (re instanceof ConnectException) {
ne = new ServiceUnavailableException();
} else if (re instanceof AccessException) {
ne = new NoPermissionException();
} else if (re instanceof StubNotFoundException ||
re instanceof UnknownHostException) {
ne = new ConfigurationException();
} else if (re instanceof ExportException ||
re instanceof ConnectIOException ||
re instanceof MarshalException ||
re instanceof UnmarshalException ||
re instanceof NoSuchObjectException) {
ne = new CommunicationException();
} else if (re instanceof ServerException &&
re.detail instanceof RemoteException) {
ne = wrapRemoteException((RemoteException)re.detail);
} else {
ne = new NamingException();
}
ne.setRootCause(re);
return ne;
}
/**
* Returns the registry at a given host, port and socket factory.
* If "host" is null, uses default host.
* If "port" is non-positive, uses default port.
* If "socketFactory" is null, uses the default socket.
*/
private static Registry getRegistry(String host, int port,
RMIClientSocketFactory socketFactory)
throws NamingException
{
// %%% We could cache registry connections here. The transport layer
// may already reuse connections.
try {
if (socketFactory == null) {
return LocateRegistry.getRegistry(host, port);
} else {
return LocateRegistry.getRegistry(host, port, socketFactory);
}
} catch (RemoteException e) {
throw (NamingException)wrapRemoteException(e).fillInStackTrace();
}
}
/**
* Attempts to install a security manager if none is currently in
* place.
*/
private static void installSecurityMgr() {
try {
System.setSecurityManager(new SecurityManager());
} catch (Exception e) {
}
}
/**
* Encodes an object prior to binding it in the registry. First,
* NamingManager.getStateToBind() is invoked. If the resulting
* object is Remote, it is returned. If it is a Reference or
* Referenceable, the reference is wrapped in a Remote object.
* Otherwise, an exception is thrown.
*
* @param name The object's name relative to this context.
*/
private Remote encodeObject(Object obj, Name name)
throws NamingException, RemoteException
{
obj = NamingManager.getStateToBind(obj, name, this, environment);
if (obj instanceof Remote) {
return (Remote)obj;
}
if (obj instanceof Reference) {
return (new ReferenceWrapper((Reference)obj));
}
if (obj instanceof Referenceable) {
return (new ReferenceWrapper(((Referenceable)obj).getReference()));
}
throw (new IllegalArgumentException(
"RegistryContext: " +
"object to bind must be Remote, Reference, or Referenceable"));
}
/**
* Decodes an object that has been retrieved from the registry.
* First, if the object is a RemoteReference, the Reference is
* unwrapped. Then, NamingManager.getObjectInstance() is invoked.
*
* @param name The object's name relative to this context.
*/
private Object decodeObject(Remote r, Name name) throws NamingException {
try {
Object obj = (r instanceof RemoteReference)
? ((RemoteReference)r).getReference()
: (Object)r;
return NamingManager.getObjectInstance(obj, name, this,
environment);
} catch (NamingException e) {
throw e;
} catch (RemoteException e) {
throw (NamingException)
wrapRemoteException(e).fillInStackTrace();
} catch (Exception e) {
NamingException ne = new NamingException();
ne.setRootCause(e);
throw ne;
}
}
}
/**
* A name parser for case-sensitive atomic names.
*/
class AtomicNameParser implements NameParser {
private static final Properties syntax = new Properties();
public Name parse(String name) throws NamingException {
return (new CompoundName(name, syntax));
}
}
/**
* An enumeration of name / class-name pairs.
*/
class NameClassPairEnumeration implements NamingEnumeration<NameClassPair> {
private final String[] names;
private int nextName; // index into "names"
NameClassPairEnumeration(String[] names) {
this.names = names;
nextName = 0;
}
public boolean hasMore() {
return (nextName < names.length);
}
public NameClassPair next() throws NamingException {
if (!hasMore()) {
throw (new java.util.NoSuchElementException());
}
// Convert name to a one-element composite name, so embedded
// meta-characters are properly escaped.
String name = names[nextName++];
Name cname = (new CompositeName()).add(name);
NameClassPair ncp = new NameClassPair(cname.toString(),
"java.lang.Object");
ncp.setNameInNamespace(name);
return ncp;
}
public boolean hasMoreElements() {
return hasMore();
}
public NameClassPair nextElement() {
try {
return next();
} catch (NamingException e) { // should never happen
throw (new java.util.NoSuchElementException(
"javax.naming.NamingException was thrown"));
}
}
public void close() {
nextName = names.length;
}
}
/**
* An enumeration of Bindings.
*
* The actual registry lookups are performed when next() is called. It would
* be nicer to defer this until the object (or its class name) is actually
* requested. The problem with that approach is that Binding.getObject()
* cannot throw NamingException.
*/
class BindingEnumeration implements NamingEnumeration<Binding> {
private RegistryContext ctx;
private final String[] names;
private int nextName; // index into "names"
BindingEnumeration(RegistryContext ctx, String[] names) {
// Clone ctx in case someone closes it before we're through.
this.ctx = new RegistryContext(ctx);
this.names = names;
nextName = 0;
}
protected void finalize() {
ctx.close();
}
public boolean hasMore() {
if (nextName >= names.length) {
ctx.close();
}
return (nextName < names.length);
}
public Binding next() throws NamingException {
if (!hasMore()) {
throw (new java.util.NoSuchElementException());
}
// Convert name to a one-element composite name, so embedded
// meta-characters are properly escaped.
String name = names[nextName++];
Name cname = (new CompositeName()).add(name);
Object obj = ctx.lookup(cname);
String cnameStr = cname.toString();
Binding binding = new Binding(cnameStr, obj);
binding.setNameInNamespace(cnameStr);
return binding;
}
public boolean hasMoreElements() {
return hasMore();
}
public Binding nextElement() {
try {
return next();
} catch (NamingException e) {
throw (new java.util.NoSuchElementException(
"javax.naming.NamingException was thrown"));
}
}
public void close () {
finalize();
}
}