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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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*
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*
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package com.sun.jndi.toolkit.ctx;
import java.util.Hashtable;
import java.util.Enumeration;
import javax.naming.*;
import javax.naming.spi.Resolver;
import javax.naming.spi.ResolveResult;
import javax.naming.spi.NamingManager;
/**
* PartialCompositeContext implements Context operations on
* composite names using implementations of the p_ interfaces
* defined by its subclasses.
*
* The main purpose provided by this class is that it deals with
* partial resolutions and continuations, so that callers of the
* Context operation don't have to.
*
* Types of clients that will be direct subclasses of
* PartialCompositeContext may be service providers that implement
* one of the JNDI protocols, but which do not deal with
* continuations. Usually, service providers will be using
* one of the subclasses of PartialCompositeContext.
*
* @author Rosanna Lee
*/
public abstract class PartialCompositeContext implements Context, Resolver {
protected static final int _PARTIAL = 1;
protected static final int _COMPONENT = 2;
protected static final int _ATOMIC = 3;
protected int _contextType = _PARTIAL;
static final CompositeName _EMPTY_NAME = new CompositeName();
static CompositeName _NNS_NAME;
static {
try {
_NNS_NAME = new CompositeName("/");
} catch (InvalidNameException e) {
// Should never happen
}
}
protected PartialCompositeContext() {
}
// ------ Abstract methods whose implementations come from subclasses
/* Equivalent to method in Resolver interface */
protected abstract ResolveResult p_resolveToClass(Name name,
Class<?> contextType, Continuation cont) throws NamingException;
/* Equivalent to methods in Context interface */
protected abstract Object p_lookup(Name name, Continuation cont)
throws NamingException;
protected abstract Object p_lookupLink(Name name, Continuation cont)
throws NamingException;
protected abstract NamingEnumeration<NameClassPair> p_list(Name name,
Continuation cont) throws NamingException;
protected abstract NamingEnumeration<Binding> p_listBindings(Name name,
Continuation cont) throws NamingException;
protected abstract void p_bind(Name name, Object obj, Continuation cont)
throws NamingException;
protected abstract void p_rebind(Name name, Object obj, Continuation cont)
throws NamingException;
protected abstract void p_unbind(Name name, Continuation cont)
throws NamingException;
protected abstract void p_destroySubcontext(Name name, Continuation cont)
throws NamingException;
protected abstract Context p_createSubcontext(Name name, Continuation cont)
throws NamingException;
protected abstract void p_rename(Name oldname, Name newname,
Continuation cont)
throws NamingException;
protected abstract NameParser p_getNameParser(Name name, Continuation cont)
throws NamingException;
// ------ should be overridden by subclass;
// ------ not abstract only for backward compatibility
/**
* A cheap way of getting the environment.
* Default implementation is NOT cheap because it simply calls
* getEnvironment(), which most implementations clone before returning.
* Subclass should ALWAYS override this with the cheapest possible way.
* The toolkit knows to clone when necessary.
* @return The possibly null environment of the context.
*/
protected Hashtable<?,?> p_getEnvironment() throws NamingException {
return getEnvironment();
}
// ------ implementations of methods in Resolver and Context
// ------ using corresponding p_ methods provided by subclass
/* implementations for method in Resolver interface using p_ method */
public ResolveResult resolveToClass(String name,
Class<? extends Context> contextType)
throws NamingException
{
return resolveToClass(new CompositeName(name), contextType);
}
public ResolveResult resolveToClass(Name name,
Class<? extends Context> contextType)
throws NamingException
{
PartialCompositeContext ctx = this;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
ResolveResult answer;
Name nm = name;
try {
answer = ctx.p_resolveToClass(nm, contextType, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
answer = ctx.p_resolveToClass(nm, contextType, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
if (!(cctx instanceof Resolver)) {
throw e;
}
answer = ((Resolver)cctx).resolveToClass(e.getRemainingName(),
contextType);
}
return answer;
}
/* implementations for methods in Context interface using p_ methods */
public Object lookup(String name) throws NamingException {
return lookup(new CompositeName(name));
}
public Object lookup(Name name) throws NamingException {
PartialCompositeContext ctx = this;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
Object answer;
Name nm = name;
try {
answer = ctx.p_lookup(nm, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
answer = ctx.p_lookup(nm, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
answer = cctx.lookup(e.getRemainingName());
}
return answer;
}
public void bind(String name, Object newObj) throws NamingException {
bind(new CompositeName(name), newObj);
}
public void bind(Name name, Object newObj) throws NamingException {
PartialCompositeContext ctx = this;
Name nm = name;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
try {
ctx.p_bind(nm, newObj, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
ctx.p_bind(nm, newObj, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
cctx.bind(e.getRemainingName(), newObj);
}
}
public void rebind(String name, Object newObj) throws NamingException {
rebind(new CompositeName(name), newObj);
}
public void rebind(Name name, Object newObj) throws NamingException {
PartialCompositeContext ctx = this;
Name nm = name;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
try {
ctx.p_rebind(nm, newObj, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
ctx.p_rebind(nm, newObj, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
cctx.rebind(e.getRemainingName(), newObj);
}
}
public void unbind(String name) throws NamingException {
unbind(new CompositeName(name));
}
public void unbind(Name name) throws NamingException {
PartialCompositeContext ctx = this;
Name nm = name;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
try {
ctx.p_unbind(nm, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
ctx.p_unbind(nm, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
cctx.unbind(e.getRemainingName());
}
}
public void rename(String oldName, String newName) throws NamingException {
rename(new CompositeName(oldName), new CompositeName(newName));
}
public void rename(Name oldName, Name newName)
throws NamingException
{
PartialCompositeContext ctx = this;
Name nm = oldName;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(oldName, env);
try {
ctx.p_rename(nm, newName, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
ctx.p_rename(nm, newName, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
if (e.getRemainingNewName() != null) {
// %%% e.getRemainingNewName() should never be null
newName = e.getRemainingNewName();
}
cctx.rename(e.getRemainingName(), newName);
}
}
public NamingEnumeration<NameClassPair> list(String name)
throws NamingException
{
return list(new CompositeName(name));
}
public NamingEnumeration<NameClassPair> list(Name name)
throws NamingException
{
PartialCompositeContext ctx = this;
Name nm = name;
NamingEnumeration<NameClassPair> answer;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
try {
answer = ctx.p_list(nm, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
answer = ctx.p_list(nm, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
answer = cctx.list(e.getRemainingName());
}
return answer;
}
public NamingEnumeration<Binding> listBindings(String name)
throws NamingException
{
return listBindings(new CompositeName(name));
}
public NamingEnumeration<Binding> listBindings(Name name)
throws NamingException
{
PartialCompositeContext ctx = this;
Name nm = name;
NamingEnumeration<Binding> answer;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
try {
answer = ctx.p_listBindings(nm, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
answer = ctx.p_listBindings(nm, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
answer = cctx.listBindings(e.getRemainingName());
}
return answer;
}
public void destroySubcontext(String name) throws NamingException {
destroySubcontext(new CompositeName(name));
}
public void destroySubcontext(Name name) throws NamingException {
PartialCompositeContext ctx = this;
Name nm = name;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
try {
ctx.p_destroySubcontext(nm, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
ctx.p_destroySubcontext(nm, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
cctx.destroySubcontext(e.getRemainingName());
}
}
public Context createSubcontext(String name) throws NamingException {
return createSubcontext(new CompositeName(name));
}
public Context createSubcontext(Name name) throws NamingException {
PartialCompositeContext ctx = this;
Name nm = name;
Context answer;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
try {
answer = ctx.p_createSubcontext(nm, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
answer = ctx.p_createSubcontext(nm, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
answer = cctx.createSubcontext(e.getRemainingName());
}
return answer;
}
public Object lookupLink(String name) throws NamingException {
return lookupLink(new CompositeName(name));
}
public Object lookupLink(Name name) throws NamingException {
PartialCompositeContext ctx = this;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
Object answer;
Name nm = name;
try {
answer = ctx.p_lookupLink(nm, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
answer = ctx.p_lookupLink(nm, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
answer = cctx.lookupLink(e.getRemainingName());
}
return answer;
}
public NameParser getNameParser(String name) throws NamingException {
return getNameParser(new CompositeName(name));
}
public NameParser getNameParser(Name name) throws NamingException {
PartialCompositeContext ctx = this;
Name nm = name;
NameParser answer;
Hashtable<?,?> env = p_getEnvironment();
Continuation cont = new Continuation(name, env);
try {
answer = ctx.p_getNameParser(nm, cont);
while (cont.isContinue()) {
nm = cont.getRemainingName();
ctx = getPCContext(cont);
answer = ctx.p_getNameParser(nm, cont);
}
} catch (CannotProceedException e) {
Context cctx = NamingManager.getContinuationContext(e);
answer = cctx.getNameParser(e.getRemainingName());
}
return answer;
}
public String composeName(String name, String prefix)
throws NamingException {
Name fullName = composeName(new CompositeName(name),
new CompositeName(prefix));
return fullName.toString();
}
/**
* This default implementation simply concatenates the two names.
* There's one twist when the "java.naming.provider.compose.elideEmpty"
* environment setting is set to "true": if each name contains a
* nonempty component, and if 'prefix' ends with an empty component or
* 'name' starts with one, then one empty component is dropped.
* For example:
* <pre>
* elideEmpty=false elideEmpty=true
* {"a"} + {"b"} => {"a", "b"} {"a", "b"}
* {"a"} + {""} => {"a", ""} {"a", ""}
* {"a"} + {"", "b"} => {"a", "", "b"} {"a", "b"}
* {"a", ""} + {"b", ""} => {"a", "", "b", ""} {"a", "b", ""}
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