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Oracle Coherence Community Edition
/*
* Copyright (c) 2000, 2020, Oracle and/or its affiliates.
*
* Licensed under the Universal Permissive License v 1.0 as shown at
* http://oss.oracle.com/licenses/upl.
*/
package com.tangosol.internal.net;
import com.tangosol.net.AsyncNamedCache;
import com.tangosol.net.CacheService;
import com.tangosol.net.NamedCache;
import com.tangosol.net.Session;
import com.tangosol.net.cache.TypeAssertion;
import com.tangosol.util.Base;
import com.tangosol.util.Filter;
import com.tangosol.util.InvocableMap;
import com.tangosol.util.Listeners;
import com.tangosol.util.MapListener;
import com.tangosol.util.MapListenerSupport;
import com.tangosol.util.ValueExtractor;
import com.tangosol.util.function.Remote;
import com.tangosol.util.stream.RemoteStream;
import java.util.Collection;
import java.util.Comparator;
import java.util.EventListener;
import java.util.Map;
import java.util.Set;
import java.util.function.BiConsumer;
import java.util.function.BiFunction;
import java.util.function.Function;
/**
* A {@link ConfigurableCacheFactorySession}-based implementation of
* {@link NamedCache}, that delegates requests onto an internal
* {@link NamedCache} and isolates developer provided instances like
* {@link MapListener}s, so that when a {@link Session} is closed, the
* resources are released.
*
* @see Session
*
* @author bo 2015.10.14
*/
public class SessionNamedCache
implements NamedCache, AutoCloseable
{
// ----- constructors ---------------------------------------------------
/**
* Constructs a {@link SessionNamedCache}.
*
* @param session the {@link ConfigurableCacheFactorySession} that produced this {@link SessionNamedCache}
* @param cache the {@link NamedCache} to which requests will be delegated
* @param typeAssertion the {@link TypeAssertion} for the {@link NamedCache}
*/
public SessionNamedCache(ConfigurableCacheFactorySession session,
NamedCache cache,
TypeAssertion typeAssertion)
{
m_session = session;
m_cache = cache;
m_typeAssertion = typeAssertion;
m_fActive = cache.isActive();
m_listeners = new MapListenerSupport();
}
// ----- NamedCache interface -------------------------------------------
@Override
public String getCacheName()
{
return m_cache.getCacheName();
}
@Override
public CacheService getCacheService()
{
return m_cache.getCacheService();
}
@Override
public boolean isActive()
{
return m_fActive;
}
@Override
public boolean isDestroyed()
{
return m_cache.isDestroyed();
}
@Override
public boolean isReleased()
{
return m_cache.isReleased();
}
@Override
public void release()
{
// release is the same as a close
close();
}
@Override
public void destroy()
{
if (m_fActive)
{
// destroying a NamedCache is always delegated to the Session to manage
m_session.onDestroy(this);
}
}
@Override
public V put(K key, V value, long cMillis)
{
return m_cache.put(key, value, cMillis);
}
@Override
public void clear()
{
m_cache.clear();
}
@Override
public void truncate()
{
m_cache.truncate();
}
@Override
public AsyncNamedCache async(AsyncNamedCache.Option... options)
{
return m_cache.async(options);
}
@Override
public void addMapListener(MapListener listener)
{
m_listeners.addListener(listener, (Filter) null, true);
m_cache.addMapListener(listener);
}
@Override
public void removeMapListener(MapListener listener)
{
m_listeners.removeListener(listener, (Filter) null);
m_cache.removeMapListener(listener);
}
@Override
public void addMapListener(MapListener listener, K key, boolean fLite)
{
m_listeners.addListener(listener, key, fLite);
m_cache.addMapListener(listener, key, fLite);
}
@Override
public void removeMapListener(MapListener listener, K key)
{
m_listeners.removeListener(listener, key);
m_cache.removeMapListener(listener, key);
}
@Override
public void addMapListener(MapListener listener, Filter filter, boolean fLite)
{
m_listeners.addListener(listener, filter, fLite);
m_cache.addMapListener(listener, filter, fLite);
}
@Override
public void removeMapListener(MapListener listener, Filter filter)
{
m_listeners.removeListener(listener, filter);
m_cache.removeMapListener(listener, filter);
}
@Override
public int size()
{
return m_cache.size();
}
@Override
public boolean isEmpty()
{
return m_cache.isEmpty();
}
@Override
public boolean containsKey(Object key)
{
return m_cache.containsKey(key);
}
@Override
public boolean containsValue(Object value)
{
return m_cache.containsValue(value);
}
@Override
public V get(Object key)
{
return m_cache.get(key);
}
@Override
public V put(K key, V value)
{
return m_cache.put(key, value);
}
@Override
public V remove(Object key)
{
return m_cache.remove(key);
}
@Override
public void putAll(Map m)
{
m_cache.putAll(m);
}
@Override
public Set keySet()
{
return m_cache.keySet();
}
@Override
public Collection values()
{
return m_cache.values();
}
@Override
public Set> entrySet()
{
return m_cache.entrySet();
}
@Override
public V getOrDefault(Object key, V defaultValue)
{
return m_cache.getOrDefault(key, defaultValue);
}
@Override
public void forEach(BiConsumer action)
{
m_cache.forEach(action);
}
@Override
public void replaceAll(BiFunction function)
{
m_cache.replaceAll(function);
}
@Override
public V putIfAbsent(K key, V value)
{
return m_cache.putIfAbsent(key, value);
}
@Override
public boolean remove(Object key, Object value)
{
return m_cache.remove(key, value);
}
@Override
public boolean replace(K key, V oldValue, V newValue)
{
return m_cache.replace(key, oldValue, newValue);
}
@Override
public V replace(K key, V value)
{
return m_cache.replace(key, value);
}
@Override
public V computeIfAbsent(K key, Function mappingFunction)
{
return m_cache.computeIfAbsent(key, mappingFunction);
}
@Override
public V computeIfPresent(K key, BiFunction remappingFunction)
{
return m_cache.computeIfPresent(key, remappingFunction);
}
@Override
public V compute(K key, BiFunction remappingFunction)
{
return m_cache.compute(key, remappingFunction);
}
@Override
public V merge(K key, V value, BiFunction remappingFunction)
{
return m_cache.merge(key, value, remappingFunction);
}
@Override
public Map getAll(Collection colKeys)
{
return m_cache.getAll(colKeys);
}
@Override
public void forEach(Collection collKeys, BiConsumer action)
{
m_cache.forEach(collKeys, action);
}
@Override
public boolean lock(Object oKey, long cWait)
{
return m_cache.lock(oKey, cWait);
}
@Override
public boolean lock(Object oKey)
{
return m_cache.lock(oKey);
}
@Override
public boolean unlock(Object oKey)
{
return m_cache.unlock(oKey);
}
@Override
public Set keySet(Filter filter)
{
return m_cache.keySet(filter);
}
@Override
public Set> entrySet(Filter filter)
{
return m_cache.entrySet(filter);
}
@Override
public Set> entrySet(Filter filter, Comparator comparator)
{
return m_cache.entrySet(filter, comparator);
}
@Override
public Collection values(Filter filter)
{
return m_cache.values(filter);
}
@Override
public Collection values(Filter filter, Comparator comparator)
{
return m_cache.values(filter, comparator);
}
@Override
public void addIndex(ValueExtractor extractor, boolean fOrdered, Comparator comparator)
{
m_cache.addIndex(extractor, fOrdered, comparator);
}
@Override
public void removeIndex(ValueExtractor extractor)
{
m_cache.removeIndex(extractor);
}
@Override
public void forEach(Filter filter, BiConsumer action)
{
m_cache.forEach(filter, action);
}
@Override
public R invoke(K key, EntryProcessor processor)
{
return m_cache.invoke(key, processor);
}
@Override
public Map invokeAll(EntryProcessor processor)
{
return m_cache.invokeAll(processor);
}
@Override
public Map invokeAll(Collection collKeys, EntryProcessor processor)
{
return m_cache.invokeAll(collKeys, processor);
}
@Override
public Map invokeAll(Filter filter, EntryProcessor processor)
{
return m_cache.invokeAll(filter, processor);
}
@Override
public R aggregate(EntryAggregator aggregator)
{
return m_cache.aggregate(aggregator);
}
@Override
public R aggregate(Collection collKeys, EntryAggregator aggregator)
{
return m_cache.aggregate(collKeys, aggregator);
}
@Override
public R aggregate(Filter filter, EntryAggregator aggregator)
{
return m_cache.aggregate(filter, aggregator);
}
@Override
public V computeIfAbsent(K key, Remote.Function mappingFunction)
{
return m_cache.computeIfAbsent(key, mappingFunction);
}
@Override
public V computeIfPresent(K key, Remote.BiFunction remappingFunction)
{
return m_cache.computeIfPresent(key, remappingFunction);
}
@Override
public V compute(K key, Remote.BiFunction remappingFunction)
{
return m_cache.compute(key, remappingFunction);
}
@Override
public V merge(K key, V value, Remote.BiFunction remappingFunction)
{
return m_cache.merge(key, value, remappingFunction);
}
@Override
public void replaceAll(Remote.BiFunction function)
{
m_cache.replaceAll(function);
}
@Override
public void replaceAll(Collection collKeys, Remote.BiFunction function)
{
m_cache.replaceAll(collKeys, function);
}
@Override
public void replaceAll(Filter filter, Remote.BiFunction function)
{
m_cache.replaceAll(filter, function);
}
@Override
public RemoteStream> stream()
{
return m_cache.stream();
}
@Override
public RemoteStream> stream(Collection collKeys)
{
return m_cache.stream(collKeys);
}
@Override
public RemoteStream> stream(Filter filter)
{
return m_cache.stream(filter);
}
@Override
public RemoteStream stream(ValueExtractor extractor)
{
return m_cache.stream(extractor);
}
@Override
public RemoteStream stream(Collection collKeys, ValueExtractor extractor)
{
return m_cache.stream(collKeys, extractor);
}
@Override
public RemoteStream stream(Filter filter, ValueExtractor extractor)
{
return m_cache.stream(filter, extractor);
}
@Override
public > C as(Class clzNamedCache)
{
Base.azzert(clzNamedCache != null, "The specified Class can't be null");
return clzNamedCache.isInstance(this) ? (C) this : m_cache.as(
clzNamedCache);
}
// ----- AutoCloseable interface ----------------------------------------
@Override
public synchronized void close()
{
if (m_fActive)
{
// closing a NamedCache is always delegated to the Session to manage
m_session.onClose(this);
}
}
// ----- SessionNamedCache methods --------------------------------------
NamedCache getInternalNamedCache()
{
return m_cache;
}
TypeAssertion getTypeAssertion()
{
return m_typeAssertion;
}
void onClosing()
{
m_fActive = false;
dropListeners();
}
void onClosed()
{
}
void onDestroying()
{
m_fActive = false;
dropListeners();
}
void onDestroyed()
{
}
void dropListeners()
{
// remove the key-based listeners from the underlying cache
m_listeners.getKeySet().stream().forEach(key ->
{
Listeners listeners = m_listeners.getListeners(
key);
if (listeners != null)
{
for (EventListener listener : listeners.listeners())
{
m_cache.removeMapListener(
(MapListener) listener,
(K) key);
}
}
});
// remove the filter-based listeners from the underlying cache
m_listeners.getFilterSet().stream().forEach(filter ->
{
Listeners listeners = m_listeners.getListeners(
filter);
if (listeners != null)
{
for (EventListener listener : listeners.listeners())
{
m_cache.removeMapListener(
(MapListener) listener,
(Filter) filter);
}
}
});
// we're no longer holding onto listeners
m_listeners.clear();
}
// ----- data members ---------------------------------------------------
/**
* The {@link ConfigurableCacheFactorySession} that produced this {@link SessionNamedCache}.
*/
private ConfigurableCacheFactorySession m_session;
/**
* The underlying {@link NamedCache} on which requests will be delegated.
*/
private NamedCache m_cache;
/**
* The {@link TypeAssertion} to be used for this {@link SessionNamedCache}.
*/
private TypeAssertion m_typeAssertion;
/**
* The {@link MapListenerSupport} for tracking {@link MapListener}s
* registered against this {@link NamedCache} implementation.
*/
private MapListenerSupport m_listeners;
/**
* A flag indicating if this instance of a {@link NamedCache} is active,
* regardless of the "active" status of the underlying {@link NamedCache}.
*/
private volatile boolean m_fActive;
}