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package org.apache.naming;
import java.util.Hashtable;
import java.util.Enumeration;
import java.util.logging.*;
import javax.naming.Binding;
import javax.naming.Context;
import javax.naming.Name;
import javax.naming.LinkRef;
import javax.naming.CompositeName;
import javax.naming.NameClassPair;
import javax.naming.NameParser;
import javax.naming.Referenceable;
import javax.naming.Reference;
import javax.naming.NamingEnumeration;
import javax.naming.NamingException;
import javax.naming.NameNotFoundException;
import javax.naming.NotContextException;
import javax.naming.InitialContext;
import javax.naming.OperationNotSupportedException;
import javax.naming.spi.NamingManager;
/**
* Catalina JNDI Context implementation.
*
* @author Remy Maucherat
* @version $Revision: 1.4 $ $Date: 2006/03/12 01:27:12 $
*/
public class NamingContext implements Context {
// -------------------------------------------------------------- Constants
/**
* Name parser for this context.
*/
protected static final NameParser nameParser = new NameParserImpl();
private static Logger log = Logger.getLogger(NamingContext.class.getName());
// ----------------------------------------------------------- Constructors
/**
* Builds a naming context using the given environment.
*/
public NamingContext(Hashtable<String, Object> env, String name)
throws NamingException {
this.bindings = new Hashtable<String, NamingEntry>();
this.env = new Hashtable<String, Object>();
// FIXME ? Could be put in the environment ?
this.name = name;
// Populating the environment hashtable
if (env != null ) {
Enumeration<String> envEntries = env.keys();
while (envEntries.hasMoreElements()) {
String entryName = envEntries.nextElement();
addToEnvironment(entryName, env.get(entryName));
}
}
}
/**
* Builds a naming context using the given environment.
*/
public NamingContext(Hashtable<String, Object> env, String name,
Hashtable<String, NamingEntry> bindings)
throws NamingException {
this(env, name);
this.bindings = bindings;
}
// ----------------------------------------------------- Instance Variables
/**
* Environment.
*/
protected Hashtable<String, Object> env;
/**
* The string manager for this package.
*/
protected static final StringManager sm = StringManager.getManager(Constants.Package);
/**
* Bindings in this Context.
*/
protected Hashtable<String, NamingEntry> bindings;
/**
* Name of the associated Catalina Context.
*/
protected String name;
// --------------------------------------------------------- Public Methods
// -------------------------------------------------------- Context Methods
/**
* Retrieves the named object. If name is empty, returns a new instance
* of this context (which represents the same naming context as this
* context, but its environment may be modified independently and it may
* be accessed concurrently).
*
* @param name the name of the object to look up
* @return the object bound to name
* @exception NamingException if a naming exception is encountered
*/
public Object lookup(Name name)
throws NamingException {
return lookup(name, true);
}
/**
* Retrieves the named object.
*
* @param name the name of the object to look up
* @return the object bound to name
* @exception NamingException if a naming exception is encountered
*/
public Object lookup(String name)
throws NamingException {
return lookup(new CompositeName(name), true);
}
/**
* Binds a name to an object. All intermediate contexts and the target
* context (that named by all but terminal atomic component of the name)
* must already exist.
*
* @param name the name to bind; may not be empty
* @param obj the object to bind; possibly null
* @exception NameAlreadyBoundException if name is already bound
* @exception InvalidAttributesException if object did not supply all
* mandatory attributes
* @exception NamingException if a naming exception is encountered
*/
public void bind(Name name, Object obj)
throws NamingException {
bind(name, obj, false);
}
/**
* Binds a name to an object.
*
* @param name the name to bind; may not be empty
* @param obj the object to bind; possibly null
* @exception NameAlreadyBoundException if name is already bound
* @exception InvalidAttributesException if object did not supply all
* mandatory attributes
* @exception NamingException if a naming exception is encountered
*/
public void bind(String name, Object obj)
throws NamingException {
bind(new CompositeName(name), obj);
}
/**
* Binds a name to an object, overwriting any existing binding. All
* intermediate contexts and the target context (that named by all but
* terminal atomic component of the name) must already exist.
* <p>
* If the object is a DirContext, any existing attributes associated with
* the name are replaced with those of the object. Otherwise, any
* existing attributes associated with the name remain unchanged.
*
* @param name the name to bind; may not be empty
* @param obj the object to bind; possibly null
* @exception InvalidAttributesException if object did not supply all
* mandatory attributes
* @exception NamingException if a naming exception is encountered
*/
public void rebind(Name name, Object obj)
throws NamingException {
bind(name, obj, true);
}
/**
* Binds a name to an object, overwriting any existing binding.
*
* @param name the name to bind; may not be empty
* @param obj the object to bind; possibly null
* @exception InvalidAttributesException if object did not supply all
* mandatory attributes
* @exception NamingException if a naming exception is encountered
*/
public void rebind(String name, Object obj)
throws NamingException {
rebind(new CompositeName(name), obj);
}
/**
* Unbinds the named object. Removes the terminal atomic name in name
* from the target context--that named by all but the terminal atomic
* part of name.
* <p>
* This method is idempotent. It succeeds even if the terminal atomic
* name is not bound in the target context, but throws
* NameNotFoundException if any of the intermediate contexts do not exist.
*
* @param name the name to bind; may not be empty
* @exception NameNotFoundException if an intermediate context does not
* exist
* @exception NamingException if a naming exception is encountered
*/
public void unbind(Name name)
throws NamingException {
checkWritable();
while ((!name.isEmpty()) && (name.get(0).length() == 0))
name = name.getSuffix(1);
if (name.isEmpty())
throw new NamingException
(sm.getString("namingContext.invalidName"));
NamingEntry entry = bindings.get(name.get(0));
if (entry == null) {
throw new NameNotFoundException
(sm.getString("namingContext.nameNotBound", name.get(0)));
}
if (name.size() > 1) {
if (entry.type == NamingEntry.CONTEXT) {
((Context) entry.value).unbind(name.getSuffix(1));
} else {
throw new NamingException
(sm.getString("namingContext.contextExpected"));
}
} else {
bindings.remove(name.get(0));
}
}
/**
* Unbinds the named object.
*
* @param name the name to bind; may not be empty
* @exception NameNotFoundException if an intermediate context does not
* exist
* @exception NamingException if a naming exception is encountered
*/
public void unbind(String name)
throws NamingException {
unbind(new CompositeName(name));
}
/**
* Binds a new name to the object bound to an old name, and unbinds the
* old name. Both names are relative to this context. Any attributes
* associated with the old name become associated with the new name.
* Intermediate contexts of the old name are not changed.
*
* @param oldName the name of the existing binding; may not be empty
* @param newName the name of the new binding; may not be empty
* @exception NameAlreadyBoundException if newName is already bound
* @exception NamingException if a naming exception is encountered
*/
public void rename(Name oldName, Name newName)
throws NamingException {
Object value = lookup(oldName);
bind(newName, value);
unbind(oldName);
}
/**
* Binds a new name to the object bound to an old name, and unbinds the
* old name.
*
* @param oldName the name of the existing binding; may not be empty
* @param newName the name of the new binding; may not be empty
* @exception NameAlreadyBoundException if newName is already bound
* @exception NamingException if a naming exception is encountered
*/
public void rename(String oldName, String newName)
throws NamingException {
rename(new CompositeName(oldName), new CompositeName(newName));
}
/**
* Enumerates the names bound in the named context, along with the class
* names of objects bound to them. The contents of any subcontexts are
* not included.
* <p>
* If a binding is added to or removed from this context, its effect on
* an enumeration previously returned is undefined.
*
* @param name the name of the context to list
* @return an enumeration of the names and class names of the bindings in
* this context. Each element of the enumeration is of type NameClassPair.
* @exception NamingException if a naming exception is encountered
*/
public NamingEnumeration<NameClassPair> list(Name name)
throws NamingException {
// Removing empty parts
while ((!name.isEmpty()) && (name.get(0).length() == 0))
name = name.getSuffix(1);
if (name.isEmpty()) {
return new NamingContextEnumeration(bindings.values().iterator());
}
NamingEntry entry = bindings.get(name.get(0));
if (entry == null) {
throw new NameNotFoundException
(sm.getString("namingContext.nameNotBound", name.get(0)));
}
if (entry.type != NamingEntry.CONTEXT) {
throw new NamingException
(sm.getString("namingContext.contextExpected"));
}
return ((Context) entry.value).list(name.getSuffix(1));
}
/**
* Enumerates the names bound in the named context, along with the class
* names of objects bound to them.
*
* @param name the name of the context to list
* @return an enumeration of the names and class names of the bindings in
* this context. Each element of the enumeration is of type NameClassPair.
* @exception NamingException if a naming exception is encountered
*/
public NamingEnumeration<NameClassPair> list(String name)
throws NamingException {
return list(new CompositeName(name));
}
/**
* Enumerates the names bound in the named context, along with the
* objects bound to them. The contents of any subcontexts are not
* included.
* <p>
* If a binding is added to or removed from this context, its effect on
* an enumeration previously returned is undefined.
*
* @param name the name of the context to list
* @return an enumeration of the bindings in this context.
* Each element of the enumeration is of type Binding.
* @exception NamingException if a naming exception is encountered
*/
public NamingEnumeration<Binding> listBindings(Name name)
throws NamingException {
// Removing empty parts
while ((!name.isEmpty()) && (name.get(0).length() == 0))
name = name.getSuffix(1);
if (name.isEmpty()) {
return new NamingContextBindingsEnumeration(bindings.values().iterator(), this);
}
NamingEntry entry = bindings.get(name.get(0));
if (entry == null) {
throw new NameNotFoundException
(sm.getString("namingContext.nameNotBound", name.get(0)));
}
if (entry.type != NamingEntry.CONTEXT) {
throw new NamingException
(sm.getString("namingContext.contextExpected"));
}
return ((Context) entry.value).listBindings(name.getSuffix(1));
}
/**
* Enumerates the names bound in the named context, along with the
* objects bound to them.
*
* @param name the name of the context to list
* @return an enumeration of the bindings in this context.
* Each element of the enumeration is of type Binding.
* @exception NamingException if a naming exception is encountered
*/
public NamingEnumeration<Binding> listBindings(String name)
throws NamingException {
return listBindings(new CompositeName(name));
}
/**
* Destroys the named context and removes it from the namespace. Any
* attributes associated with the name are also removed. Intermediate
* contexts are not destroyed.
* <p>
* This method is idempotent. It succeeds even if the terminal atomic
* name is not bound in the target context, but throws
* NameNotFoundException if any of the intermediate contexts do not exist.
*
* In a federated naming system, a context from one naming system may be
* bound to a name in another. One can subsequently look up and perform
* operations on the foreign context using a composite name. However, an
* attempt destroy the context using this composite name will fail with
* NotContextException, because the foreign context is not a "subcontext"
* of the context in which it is bound. Instead, use unbind() to remove
* the binding of the foreign context. Destroying the foreign context
* requires that the destroySubcontext() be performed on a context from
* the foreign context's "native" naming system.
*
* @param name the name of the context to be destroyed; may not be empty
* @exception NameNotFoundException if an intermediate context does not
* exist
* @exception NotContextException if the name is bound but does not name
* a context, or does not name a context of the appropriate type
*/
public void destroySubcontext(Name name)
throws NamingException {
checkWritable();
while ((!name.isEmpty()) && (name.get(0).length() == 0))
name = name.getSuffix(1);
if (name.isEmpty())
throw new NamingException
(sm.getString("namingContext.invalidName"));
NamingEntry entry = bindings.get(name.get(0));
if (entry == null) {
throw new NameNotFoundException
(sm.getString("namingContext.nameNotBound", name.get(0)));
}
if (name.size() > 1) {
if (entry.type == NamingEntry.CONTEXT) {
((Context) entry.value).destroySubcontext(name.getSuffix(1));
} else {
throw new NamingException
(sm.getString("namingContext.contextExpected"));
}
} else {
if (entry.type == NamingEntry.CONTEXT) {
((Context) entry.value).close();
bindings.remove(name.get(0));
} else {
throw new NotContextException
(sm.getString("namingContext.contextExpected"));
}
}
}
/**
* Destroys the named context and removes it from the namespace.
*
* @param name the name of the context to be destroyed; may not be empty
* @exception NameNotFoundException if an intermediate context does not
* exist
* @exception NotContextException if the name is bound but does not name
* a context, or does not name a context of the appropriate type
*/
public void destroySubcontext(String name)
throws NamingException {
destroySubcontext(new CompositeName(name));
}
/**
* Creates and binds a new context. Creates a new context with the given
* name and binds it in the target context (that named by all but
* terminal atomic component of the name). All intermediate contexts and
* the target context must already exist.
*
* @param name the name of the context to create; may not be empty
* @return the newly created context
* @exception NameAlreadyBoundException if name is already bound
* @exception InvalidAttributesException if creation of the subcontext
* requires specification of mandatory attributes
* @exception NamingException if a naming exception is encountered
*/
public Context createSubcontext(Name name)
throws NamingException {
checkWritable();
Context newContext = new NamingContext(env, this.name);
bind(name, newContext);
return newContext;
}
/**
* Creates and binds a new context.
*
* @param name the name of the context to create; may not be empty
* @return the newly created context
* @exception NameAlreadyBoundException if name is already bound
* @exception InvalidAttributesException if creation of the subcontext
* requires specification of mandatory attributes
* @exception NamingException if a naming exception is encountered
*/
public Context createSubcontext(String name)
throws NamingException {
return createSubcontext(new CompositeName(name));
}
/**
* Retrieves the named object, following links except for the terminal
* atomic component of the name. If the object bound to name is not a
* link, returns the object itself.
*
* @param name the name of the object to look up
* @return the object bound to name, not following the terminal link
* (if any).
* @exception NamingException if a naming exception is encountered
*/
public Object lookupLink(Name name)
throws NamingException {
return lookup(name, false);
}
/**
* Retrieves the named object, following links except for the terminal
* atomic component of the name.
*
* @param name the name of the object to look up
* @return the object bound to name, not following the terminal link
* (if any).
* @exception NamingException if a naming exception is encountered
*/
public Object lookupLink(String name)
throws NamingException {
return lookup(new CompositeName(name), false);
}
/**
* Retrieves the parser associated with the named context. In a
* federation of namespaces, different naming systems will parse names
* differently. This method allows an application to get a parser for
* parsing names into their atomic components using the naming convention
* of a particular naming system. Within any single naming system,
* NameParser objects returned by this method must be equal (using the
* equals() test).
*
* @param name the name of the context from which to get the parser
* @return a name parser that can parse compound names into their atomic
* components
* @exception NamingException if a naming exception is encountered
*/
public NameParser getNameParser(Name name)
throws NamingException {
while ((!name.isEmpty()) && (name.get(0).length() == 0))
name = name.getSuffix(1);
if (name.isEmpty())
return nameParser;
if (name.size() > 1) {
Object obj = bindings.get(name.get(0));
if (obj instanceof Context) {
return ((Context) obj).getNameParser(name.getSuffix(1));
} else {
throw new NotContextException
(sm.getString("namingContext.contextExpected"));
}
}
return nameParser;
}
/**
* Retrieves the parser associated with the named context.
*
* @param name the name of the context from which to get the parser
* @return a name parser that can parse compound names into their atomic
* components
* @exception NamingException if a naming exception is encountered
*/
public NameParser getNameParser(String name)
throws NamingException {
return getNameParser(new CompositeName(name));
}
/**
* Composes the name of this context with a name relative to this context.
* <p>
* Given a name (name) relative to this context, and the name (prefix)
* of this context relative to one of its ancestors, this method returns
* the composition of the two names using the syntax appropriate for the
* naming system(s) involved. That is, if name names an object relative
* to this context, the result is the name of the same object, but
* relative to the ancestor context. None of the names may be null.
*
* @param name a name relative to this context
* @param prefix the name of this context relative to one of its ancestors
* @return the composition of prefix and name
* @exception NamingException if a naming exception is encountered
*/
public Name composeName(Name name, Name prefix)
throws NamingException {
prefix = (Name) prefix.clone();
return prefix.addAll(name);
}
/**
* Composes the name of this context with a name relative to this context.
*
* @param name a name relative to this context
* @param prefix the name of this context relative to one of its ancestors
* @return the composition of prefix and name
* @exception NamingException if a naming exception is encountered
*/
public String composeName(String name, String prefix)
throws NamingException {
return prefix + "/" + name;
}
/**
* Adds a new environment property to the environment of this context. If
* the property already exists, its value is overwritten.
*
* @param propName the name of the environment property to add; may not
* be null
* @param propVal the value of the property to add; may not be null
* @exception NamingException if a naming exception is encountered
*/
public Object addToEnvironment(String propName, Object propVal)
throws NamingException {
return env.put(propName, propVal);
}
/**
* Removes an environment property from the environment of this context.
*
* @param propName the name of the environment property to remove;
* may not be null
* @exception NamingException if a naming exception is encountered
*/
public Object removeFromEnvironment(String propName)
throws NamingException {
return env.remove(propName);
}
/**
* Retrieves the environment in effect for this context. See class
* description for more details on environment properties.
* The caller should not make any changes to the object returned: their
* effect on the context is undefined. The environment of this context
* may be changed using addToEnvironment() and removeFromEnvironment().
*
* @return the environment of this context; never null
* @exception NamingException if a naming exception is encountered
*/
public Hashtable<?,?> getEnvironment()
throws NamingException {
return env;
}
/**
* Closes this context. This method releases this context's resources
* immediately, instead of waiting for them to be released automatically
* by the garbage collector.
* This method is idempotent: invoking it on a context that has already
* been closed has no effect. Invoking any other method on a closed
* context is not allowed, and results in undefined behaviour.
*
* @exception NamingException if a naming exception is encountered
*/
public void close()
throws NamingException {
env.clear();
}
/**
* Retrieves the full name of this context within its own namespace.
* <p>
* Many naming services have a notion of a "full name" for objects in
* their respective namespaces. For example, an LDAP entry has a
* distinguished name, and a DNS record has a fully qualified name. This
* method allows the client application to retrieve this name. The string
* returned by this method is not a JNDI composite name and should not be
* passed directly to context methods. In naming systems for which the
* notion of full name does not make sense,
* OperationNotSupportedException is thrown.
*
* @return this context's name in its own namespace; never null
* @exception OperationNotSupportedException if the naming system does
* not have the notion of a full name
* @exception NamingException if a naming exception is encountered
*/
public String getNameInNamespace()
throws NamingException {
throw new OperationNotSupportedException
(sm.getString("namingContext.noAbsoluteName"));
//FIXME ?
}
// ------------------------------------------------------ Protected Methods
/**
* Retrieves the named object.
*
* @param name the name of the object to look up
* @param resolveLinks If true, the links will be resolved
* @return the object bound to name
* @exception NamingException if a naming exception is encountered
*/
protected Object lookup(Name name, boolean resolveLinks)
throws NamingException {
// Removing empty parts
while ((!name.isEmpty()) && (name.get(0).length() == 0))
name = name.getSuffix(1);
if (name.isEmpty()) {
// If name is empty, a newly allocated naming context is returned
return new NamingContext(env, this.name, bindings);
}
NamingEntry entry = (NamingEntry) bindings.get(name.get(0));
if (entry == null) {
throw new NameNotFoundException
(sm.getString("namingContext.nameNotBound", name.get(0)));
}
if (name.size() > 1) {
// If the size of the name is greater that 1, then we go through a
// number of subcontexts.
if (entry.type != NamingEntry.CONTEXT) {
throw new NamingException
(sm.getString("namingContext.contextExpected"));
}
return ((Context) entry.value).lookup(name.getSuffix(1));
} else {
if ((resolveLinks) && (entry.type == NamingEntry.LINK_REF)) {
String link = ((LinkRef) entry.value).getLinkName();
if (link.startsWith(".")) {
// Link relative to this context
return lookup(link.substring(1));
} else {
return (new InitialContext(env)).lookup(link);
}
} else if (entry.type == NamingEntry.REFERENCE) {
try {
Object obj = NamingManager.getObjectInstance
(entry.value, name, this, env);
if (obj != null) {
entry.value = obj;
entry.type = NamingEntry.ENTRY;
}
return obj;
} catch (NamingException e) {
throw e;
} catch (Exception e) {
log.log(Level.WARNING,
sm.getString("namingContext.failResolvingReference"),
e);
throw new NamingException(e.getMessage());
}
} else {
return entry.value;
}
}
}
/**
* Binds a name to an object. All intermediate contexts and the target
* context (that named by all but terminal atomic component of the name)
* must already exist.
*
* @param name the name to bind; may not be empty
* @param obj the object to bind; possibly null
* @param rebind if true, then perform a rebind (ie, overwrite)
* @exception NameAlreadyBoundException if name is already bound
* @exception InvalidAttributesException if object did not supply all
* mandatory attributes
* @exception NamingException if a naming exception is encountered
*/
protected void bind(Name name, Object obj, boolean rebind)
throws NamingException {
checkWritable();
while ((!name.isEmpty()) && (name.get(0).length() == 0))
name = name.getSuffix(1);
if (name.isEmpty())
throw new NamingException
(sm.getString("namingContext.invalidName"));
NamingEntry entry = (NamingEntry) bindings.get(name.get(0));
if (name.size() > 1) {
if (entry == null) {
throw new NameNotFoundException
(sm.getString("namingContext.nameNotBound", name.get(0)));
}
if (entry.type == NamingEntry.CONTEXT) {
if (rebind) {
((Context) entry.value).rebind(name.getSuffix(1), obj);
} else {
((Context) entry.value).bind(name.getSuffix(1), obj);
}
} else {
throw new NamingException
(sm.getString("namingContext.contextExpected"));
}
} else {
if ((!rebind) && (entry != null)) {
throw new NamingException
(sm.getString("namingContext.alreadyBound", name.get(0)));
} else {
// Getting the type of the object and wrapping it within a new
// NamingEntry
Object toBind =
NamingManager.getStateToBind(obj, name, this, env);
if (toBind instanceof Context) {
entry = new NamingEntry(name.get(0), toBind,
NamingEntry.CONTEXT);
} else if (toBind instanceof LinkRef) {
entry = new NamingEntry(name.get(0), toBind,
NamingEntry.LINK_REF);
} else if (toBind instanceof Reference) {
entry = new NamingEntry(name.get(0), toBind,
NamingEntry.REFERENCE);
} else if (toBind instanceof Referenceable) {
toBind = ((Referenceable) toBind).getReference();
entry = new NamingEntry(name.get(0), toBind,
NamingEntry.REFERENCE);
} else {
entry = new NamingEntry(name.get(0), toBind,
NamingEntry.ENTRY);
}
bindings.put(name.get(0), entry);
}
}
}
/**
* Returns true if writing is allowed on this context.
*/
protected boolean isWritable() {
return ContextAccessController.isWritable(name);
}
/**
* Throws a naming exception is Context is not writable.
*/
protected void checkWritable()
throws NamingException {
if (!isWritable())
throw new NamingException(sm.getString("namingContext.readOnly"));
}
}