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java.lang.Object net.sf.ehcache.Cache
public class Cache
Cache is the central class in ehcache. Caches have Element
s and are managed
by the CacheManager
. The Cache performs logical actions. It delegates physical
implementations to its Store
s.
CacheManager
. A Cache thus obtained
is guaranteed to have status Status.STATUS_ALIVE
. This status is checked for any method which
throws IllegalStateException
and the same thrown if it is not alive. This would normally
happen if a call is made after CacheManager.shutdown()
is invoked.
Cache is threadsafe.
Statistics on cache usage are collected and made available through the getStatistics()
methods.
Various decorators are available for Cache, such as BlockingCache, SelfPopulatingCache and the dynamic proxy
ExceptionHandlingDynamicCacheProxy. See each class for details.
Field Summary | |
---|---|
static String |
DEFAULT_CACHE_NAME
A reserved word for cache names. |
static long |
DEFAULT_EXPIRY_THREAD_INTERVAL_SECONDS
The default interval between runs of the expiry thread. |
static String |
NET_SF_EHCACHE_DISABLED
System Property based method of disabling ehcache. |
static String |
NET_SF_EHCACHE_USE_CLASSIC_LRU
System Property based method of selecting the LruMemoryStore in use up to ehcache 1.5. |
Constructor Summary | |
---|---|
Cache(CacheConfiguration cacheConfiguration)
2.0 and higher Constructor The ConfigurationFactory and clients can create these. |
|
Cache(CacheConfiguration cacheConfiguration,
RegisteredEventListeners registeredEventListeners,
BootstrapCacheLoader bootstrapCacheLoader)
2.0 and higher Constructor The ConfigurationFactory
and clients can create these. |
|
Cache(String name,
int maxElementsInMemory,
boolean overflowToDisk,
boolean eternal,
long timeToLiveSeconds,
long timeToIdleSeconds)
1.0 Constructor. |
|
Cache(String name,
int maxElementsInMemory,
boolean overflowToDisk,
boolean eternal,
long timeToLiveSeconds,
long timeToIdleSeconds,
boolean diskPersistent,
long diskExpiryThreadIntervalSeconds)
1.1 Constructor. |
|
Cache(String name,
int maxElementsInMemory,
MemoryStoreEvictionPolicy memoryStoreEvictionPolicy,
boolean overflowToDisk,
String diskStorePath,
boolean eternal,
long timeToLiveSeconds,
long timeToIdleSeconds,
boolean diskPersistent,
long diskExpiryThreadIntervalSeconds,
RegisteredEventListeners registeredEventListeners)
1.2 Constructor The ConfigurationFactory and clients can create these. |
|
Cache(String name,
int maxElementsInMemory,
MemoryStoreEvictionPolicy memoryStoreEvictionPolicy,
boolean overflowToDisk,
String diskStorePath,
boolean eternal,
long timeToLiveSeconds,
long timeToIdleSeconds,
boolean diskPersistent,
long diskExpiryThreadIntervalSeconds,
RegisteredEventListeners registeredEventListeners,
BootstrapCacheLoader bootstrapCacheLoader)
1.2.1 Constructor The ConfigurationFactory and clients can create these. |
|
Cache(String name,
int maxElementsInMemory,
MemoryStoreEvictionPolicy memoryStoreEvictionPolicy,
boolean overflowToDisk,
String diskStorePath,
boolean eternal,
long timeToLiveSeconds,
long timeToIdleSeconds,
boolean diskPersistent,
long diskExpiryThreadIntervalSeconds,
RegisteredEventListeners registeredEventListeners,
BootstrapCacheLoader bootstrapCacheLoader,
int maxElementsOnDisk)
1.2.4 Constructor The ConfigurationFactory and clients can create these. |
|
Cache(String name,
int maxElementsInMemory,
MemoryStoreEvictionPolicy memoryStoreEvictionPolicy,
boolean overflowToDisk,
String diskStorePath,
boolean eternal,
long timeToLiveSeconds,
long timeToIdleSeconds,
boolean diskPersistent,
long diskExpiryThreadIntervalSeconds,
RegisteredEventListeners registeredEventListeners,
BootstrapCacheLoader bootstrapCacheLoader,
int maxElementsOnDisk,
int diskSpoolBufferSizeMB)
1.3 Constructor The ConfigurationFactory and clients can create these. |
|
Cache(String name,
int maxElementsInMemory,
MemoryStoreEvictionPolicy memoryStoreEvictionPolicy,
boolean overflowToDisk,
String diskStorePath,
boolean eternal,
long timeToLiveSeconds,
long timeToIdleSeconds,
boolean diskPersistent,
long diskExpiryThreadIntervalSeconds,
RegisteredEventListeners registeredEventListeners,
BootstrapCacheLoader bootstrapCacheLoader,
int maxElementsOnDisk,
int diskSpoolBufferSizeMB,
boolean clearOnFlush)
1.6.0 Constructor The ConfigurationFactory and clients can create these. |
|
Cache(String name,
int maxElementsInMemory,
MemoryStoreEvictionPolicy memoryStoreEvictionPolicy,
boolean overflowToDisk,
String diskStorePath,
boolean eternal,
long timeToLiveSeconds,
long timeToIdleSeconds,
boolean diskPersistent,
long diskExpiryThreadIntervalSeconds,
RegisteredEventListeners registeredEventListeners,
BootstrapCacheLoader bootstrapCacheLoader,
int maxElementsOnDisk,
int diskSpoolBufferSizeMB,
boolean clearOnFlush,
boolean isTerracottaClustered,
boolean terracottaCoherentReads)
1.7.0 Constructor The ConfigurationFactory and clients can create these. |
Method Summary | ||
---|---|---|
void |
acquireReadLockOnKey(Object key)
Acquires the proper read lock for a given cache key |
|
void |
acquireWriteLockOnKey(Object key)
Acquires the proper write lock for a given cache key |
|
void |
addPropertyChangeListener(PropertyChangeListener listener)
Add a PropertyChangeListener. |
|
void |
bootstrap()
Bootstrap command. |
|
long |
calculateInMemorySize()
Deprecated. |
|
long |
calculateOffHeapSize()
Deprecated. |
|
long |
calculateOnDiskSize()
Deprecated. |
|
Cache |
clone()
Clones a cache. |
|
void |
clusterCoherent(boolean clusterCoherent)
Inform of cluster coherence. |
|
protected DiskStore |
createDiskStore()
Creates a disk store when either: overflowToDisk is enabled diskPersistent is enabled |
|
Query |
createQuery()
Create a new query builder for this cache |
|
void |
disableDynamicFeatures()
Disables dynamic configuration and disable/enable for this cache. |
|
void |
dispose()
Starts an orderly shutdown of the Cache. |
|
boolean |
equals(Object object)
An equals method which follows the contract of Object.equals(Object)
An Cache is equal to another one if it implements Ehcache and has the same GUID. |
|
void |
evictExpiredElements()
Causes all elements stored in the Cache to be synchronously checked for expiry, and if expired, evicted. |
|
void |
firePropertyChange(String propertyName,
Object oldValue,
Object newValue)
|
|
void |
flush()
Flushes all cache items from memory to the disk store, and from the DiskStore to disk. |
|
Element |
get(Object key)
Gets an element from the cache. |
|
Element |
get(Serializable key)
Gets an element from the cache. |
|
Map<Object,Element> |
getAll(Collection<?> keys)
Gets all the elements from the cache for the keys provided. |
|
Map |
getAllWithLoader(Collection keys,
Object loaderArgument)
The getAll method will return, from the cache, a Map of the objects associated with the Collection of keys in argument "keys". |
|
BootstrapCacheLoader |
getBootstrapCacheLoader()
Accessor for the BootstrapCacheLoader associated with this cache. |
|
CacheConfiguration |
getCacheConfiguration()
Gets the cache configuration this cache was created with. |
|
RegisteredEventListeners |
getCacheEventNotificationService()
Use this to access the service in order to register and unregister listeners |
|
CacheExceptionHandler |
getCacheExceptionHandler()
Gets the ExceptionHandler on this Cache, or null if there isn't one. |
|
CacheManager |
getCacheManager()
Gets the CacheManager managing this cache. |
|
int |
getDiskStoreSize()
Deprecated. |
|
String |
getGuid()
The GUID for this cache instance can be used to determine whether two cache instance references are pointing to the same cache. |
|
Object |
getInternalContext()
This should not be used return some internal context (generally will be null) |
|
List |
getKeys()
Returns a list of all element keys in the cache, whether or not they are expired. |
|
List |
getKeysNoDuplicateCheck()
Returns a list of all elements in the cache, whether or not they are expired. |
|
List |
getKeysWithExpiryCheck()
Returns a list of all element keys in the cache. |
|
protected Sync |
getLockForKey(Object key)
Gets the lock for a given key |
|
Policy |
getMemoryStoreEvictionPolicy()
|
|
long |
getMemoryStoreSize()
Deprecated. |
|
String |
getName()
Gets the cache name. |
|
long |
getOffHeapStoreSize()
Deprecated. |
|
Element |
getQuiet(Object key)
Gets an element from the cache, without updating Element statistics. |
|
Element |
getQuiet(Serializable key)
Gets an element from the cache, without updating Element statistics. |
|
List<CacheExtension> |
getRegisteredCacheExtensions()
|
|
List<CacheLoader> |
getRegisteredCacheLoaders()
|
|
CacheWriter |
getRegisteredCacheWriter()
Retrieves the CacheWriter that was registered for this cache. |
|
|
getSearchAttribute(String attributeName)
Retrieve the given named search attribute |
|
Set<Attribute> |
getSearchAttributes()
|
|
int |
getSize()
Gets the size of the cache. |
|
StatisticsGateway |
getStatistics()
Gets an immutable Statistics object representing the Cache statistics at the time. |
|
Status |
getStatus()
Gets the status attribute of the Cache. |
|
Object |
getStoreMBean()
Get the optional store management bean for this cache. |
|
TransactionManagerLookup |
getTransactionManagerLookup()
Get the TransactionManagerLookup implementation used to lookup the TransactionManager. |
|
Element |
getWithLoader(Object key,
CacheLoader loader,
Object loaderArgument)
This method will return, from the cache, the Element associated with the argument "key". |
|
CacheWriterManager |
getWriterManager()
Obtain the writer manager that's used by this cache instance. |
|
boolean |
hasAbortedSizeOf()
Check if the cache may contain elements which the SizeOf engine could not fully size. |
|
int |
hashCode()
Returns a hash code value for the object. |
|
void |
initialise()
Newly created caches do not have a Store . |
|
boolean |
isClusterBulkLoadEnabled()
Returns true if at least one node in the cluster is in bulk-load mode. |
|
boolean |
isClusterCoherent()
Deprecated. use isClusterBulkLoadEnabled() instead |
|
boolean |
isDisabled()
Whether this cache is disabled. |
|
protected boolean |
isDiskStore()
Whether this cache uses a disk store |
|
boolean |
isElementInMemory(Object key)
Whether an Element is stored in the cache in Memory, indicating a very low cost of retrieval. |
|
boolean |
isElementInMemory(Serializable key)
Whether an Element is stored in the cache in Memory, indicating a very low cost of retrieval. |
|
boolean |
isElementOffHeap(Object key)
Whether an Element is stored in the cache in off-heap memory, indicating an intermediate cost of retrieval. |
|
boolean |
isElementOnDisk(Object key)
Whether an Element is stored in the cache on Disk, indicating a higher cost of retrieval. |
|
boolean |
isElementOnDisk(Serializable key)
Whether an Element is stored in the cache on Disk, indicating a higher cost of retrieval. |
|
boolean |
isExpired(Element element)
Checks whether this cache element has expired. |
|
boolean |
isKeyInCache(Object key)
An inexpensive check to see if the key exists in the cache. |
|
boolean |
isNodeBulkLoadEnabled()
Returns true if the current node is in bulk-load mode. |
|
boolean |
isNodeCoherent()
Deprecated. use isNodeBulkLoadEnabled() instead |
|
boolean |
isReadLockedByCurrentThread(Object key)
Returns true if a read lock for the key is held by the current thread |
|
boolean |
isSearchable()
Is this cache searchable? |
|
boolean |
isTerracottaClustered()
Indicates whether this cache is clustered by Terracotta |
|
boolean |
isValueInCache(Object value)
An extremely expensive check to see if the value exists in the cache. |
|
boolean |
isWriteLockedByCurrentThread(Object key)
Returns true if a write lock for the key is held by the current thread |
|
void |
load(Object key)
The load method provides a means to "pre-load" the cache. |
|
void |
loadAll(Collection keys,
Object argument)
The loadAll method provides a means to "pre load" objects into the cache. |
|
void |
put(Element element)
Put an element in the cache. |
|
void |
put(Element element,
boolean doNotNotifyCacheReplicators)
Put an element in the cache. |
|
void |
putAll(Collection<Element> elements)
Puts a collection of elements in to the cache. |
|
Element |
putIfAbsent(Element element)
Put an element in the cache if no element is currently mapped to the elements key. |
|
Element |
putIfAbsent(Element element,
boolean doNotNotifyCacheReplicators)
Put an element in the cache if no element is currently mapped to the elements key. |
|
void |
putQuiet(Element element)
Put an element in the cache, without updating statistics, or updating listeners. |
|
void |
putWithWriter(Element element)
Put an element in the cache writing through a CacheWriter. |
|
void |
recalculateSize(Object key)
Recalculate the size of the element mapped to the key |
|
void |
registerCacheExtension(CacheExtension cacheExtension)
Register a CacheExtension with the cache. |
|
void |
registerCacheLoader(CacheLoader cacheLoader)
Register a CacheLoader with the cache. |
|
void |
registerCacheWriter(CacheWriter cacheWriter)
Register the CacheWriter for this cache. |
|
void |
registerDynamicAttributesExtractor(DynamicAttributesExtractor extractor)
Allows user to register a dynamic attribute extractor with a searchable cache that is dynamically indexable, as indicated by its configuration. |
|
void |
releaseReadLockOnKey(Object key)
Release a held read lock for the passed in key |
|
void |
releaseWriteLockOnKey(Object key)
Release a held write lock for the passed in key |
|
boolean |
remove(Object key)
Removes an Element from the Cache. |
|
boolean |
remove(Object key,
boolean doNotNotifyCacheReplicators)
Removes an Element from the Cache. |
|
boolean |
remove(Serializable key)
Removes an Element from the Cache. |
|
boolean |
remove(Serializable key,
boolean doNotNotifyCacheReplicators)
Removes an Element from the Cache. |
|
void |
removeAll()
Removes all cached items. |
|
void |
removeAll(boolean doNotNotifyCacheReplicators)
Removes all cached items. |
|
void |
removeAll(Collection<?> keys)
Removes given set of Element from the Cache. |
|
void |
removeAll(Collection<?> keys,
boolean doNotNotifyCacheReplicators)
Removes all cached items. |
|
Element |
removeAndReturnElement(Object key)
Removes an Element from the Cache and returns it. |
|
boolean |
removeElement(Element element)
Remove the Element mapped to the key for the supplied element if the value of the supplied Element compares equal to the value of the cached Element. |
|
void |
removePropertyChangeListener(PropertyChangeListener listener)
Remove a PropertyChangeListener. |
|
boolean |
removeQuiet(Object key)
Removes an Element from the Cache, without notifying listeners. |
|
boolean |
removeQuiet(Serializable key)
Removes an Element from the Cache, without notifying listeners. |
|
boolean |
removeWithWriter(Object key)
Removes an Element from the Cache and any stores it might be in. |
|
Element |
replace(Element element)
Replace the cached element only if an Element is currently cached for this key |
|
boolean |
replace(Element old,
Element element)
Replace the cached element only if the current Element is equal to the supplied old Element. |
|
void |
setBootstrapCacheLoader(BootstrapCacheLoader bootstrapCacheLoader)
Sets the bootstrap cache loader. |
|
void |
setCacheExceptionHandler(CacheExceptionHandler cacheExceptionHandler)
Sets an ExceptionHandler on the Cache. |
|
void |
setCacheManager(CacheManager cacheManager)
For use by CacheManager. |
|
void |
setDisabled(boolean disabled)
Disables or enables this cache. |
|
void |
setMemoryStoreEvictionPolicy(Policy policy)
Sets the eviction policy strategy. |
|
void |
setName(String name)
Sets the cache name which will name. |
|
void |
setNodeBulkLoadEnabled(boolean enabledBulkLoad)
Enable/disable bulk-load mode in this node for this cache. |
|
void |
setNodeCoherent(boolean coherent)
Deprecated. use setNodeBulkLoadEnabled(boolean) instead |
|
void |
setTransactionManagerLookup(TransactionManagerLookup lookup)
Sets the TransactionManagerLookup that needs to be used for this cache to lookup the TransactionManager This needs to be set before initialise() is called |
|
String |
toString()
Returns a String representation of Cache . |
|
boolean |
tryReadLockOnKey(Object key,
long timeout)
Try to get a read lock on a given key. |
|
boolean |
tryWriteLockOnKey(Object key,
long timeout)
Try to get a write lock on a given key. |
|
void |
unregisterCacheExtension(CacheExtension cacheExtension)
Unregister a CacheExtension with the cache. |
|
void |
unregisterCacheLoader(CacheLoader cacheLoader)
Unregister a CacheLoader with the cache. |
|
void |
unregisterCacheWriter()
Unregister the CacheWriter from the cache. |
|
void |
waitUntilClusterBulkLoadComplete()
This method waits until all the connected nodes have disabled bulk-load. |
|
void |
waitUntilClusterCoherent()
Deprecated. use waitUntilClusterBulkLoadComplete() instead |
Methods inherited from class java.lang.Object |
---|
finalize, getClass, notify, notifyAll, wait, wait, wait |
Field Detail |
---|
public static final String DEFAULT_CACHE_NAME
public static final String NET_SF_EHCACHE_DISABLED
java -Dnet.sf.ehcache.disabled=true
in the command line.
public static final String NET_SF_EHCACHE_USE_CLASSIC_LRU
java -Dnet.sf.ehcache.use.classic.lru=true
in the command line.
public static final long DEFAULT_EXPIRY_THREAD_INTERVAL_SECONDS
CacheConfiguration#DEFAULT_EXPIRY_THREAD_INTERVAL_SECONDS for a preferred way of setting
,
Constant Field ValuesConstructor Detail |
---|
public Cache(CacheConfiguration cacheConfiguration)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object
into CacheManager.addCache(java.lang.String)
to specify parameters other than the defaults.
Only the CacheManager can initialise them.
cacheConfiguration
- the configuration that should be used to create the cache withpublic Cache(CacheConfiguration cacheConfiguration, RegisteredEventListeners registeredEventListeners, BootstrapCacheLoader bootstrapCacheLoader)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object into CacheManager.addCache(java.lang.String)
to specify parameters other
than the defaults.
Only the CacheManager can initialise them.
cacheConfiguration
- the configuration that should be used to create the cache withregisteredEventListeners
- a notification service. Optionally null, in which case a new one with no registered listeners will be created.bootstrapCacheLoader
- the BootstrapCacheLoader to use to populate the cache when it is first initialised. Null if none is required.public Cache(String name, int maxElementsInMemory, boolean overflowToDisk, boolean eternal, long timeToLiveSeconds, long timeToIdleSeconds)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object
into CacheManager.addCache(java.lang.String)
to specify parameters other than the defaults.
Only the CacheManager can initialise them.
This constructor creates disk stores, if specified, that do not persist between restarts.
The default expiry thread interval of 120 seconds is used. This is the interval between runs
of the expiry thread, where it checks the disk store for expired elements. It is not the
the timeToLiveSeconds.
name
- the name of the cache. Note that "default" is a reserved name for the defaultCache.maxElementsInMemory
- the maximum number of elements in memory, before they are evicted (0 == no limit)overflowToDisk
- whether to use the disk storeeternal
- whether the elements in the cache are eternal, i.e. never expiretimeToLiveSeconds
- the default amount of time to live for an element from its creation datetimeToIdleSeconds
- the default amount of time to live for an element from its last accessed or modified dateCache(CacheConfiguration, RegisteredEventListeners, BootstrapCacheLoader),
for full construction support of version 2.0 and higher features.
public Cache(String name, int maxElementsInMemory, boolean overflowToDisk, boolean eternal, long timeToLiveSeconds, long timeToIdleSeconds, boolean diskPersistent, long diskExpiryThreadIntervalSeconds)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object
into CacheManager.addCache(java.lang.String)
to specify parameters other than the defaults.
Only the CacheManager can initialise them.
name
- the name of the cache. Note that "default" is a reserved name for the defaultCache.maxElementsInMemory
- the maximum number of elements in memory, before they are evicted (0 == no limit)overflowToDisk
- whether to use the disk storeeternal
- whether the elements in the cache are eternal, i.e. never expiretimeToLiveSeconds
- the default amount of time to live for an element from its creation datetimeToIdleSeconds
- the default amount of time to live for an element from its last accessed or modified datediskPersistent
- whether to persist the cache to disk between JVM restartsdiskExpiryThreadIntervalSeconds
- how often to run the disk store expiry thread. A large number of 120 seconds plus is recommendedCache(CacheConfiguration, RegisteredEventListeners, BootstrapCacheLoader),
for full construction support of version 2.0 and higher features.
public Cache(String name, int maxElementsInMemory, MemoryStoreEvictionPolicy memoryStoreEvictionPolicy, boolean overflowToDisk, String diskStorePath, boolean eternal, long timeToLiveSeconds, long timeToIdleSeconds, boolean diskPersistent, long diskExpiryThreadIntervalSeconds, RegisteredEventListeners registeredEventListeners)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object
into CacheManager.addCache(java.lang.String)
to specify parameters other than the defaults.
Only the CacheManager can initialise them.
name
- the name of the cache. Note that "default" is a reserved name for the defaultCache.maxElementsInMemory
- the maximum number of elements in memory, before they are evicted (0 == no limit)memoryStoreEvictionPolicy
- one of LRU, LFU and FIFO. Optionally null, in which case it will be set to LRU.overflowToDisk
- whether to use the disk storediskStorePath
- this parameter is ignored. CacheManager sets it using setter injection.eternal
- whether the elements in the cache are eternal, i.e. never expiretimeToLiveSeconds
- the default amount of time to live for an element from its creation datetimeToIdleSeconds
- the default amount of time to live for an element from its last accessed or modified datediskPersistent
- whether to persist the cache to disk between JVM restartsdiskExpiryThreadIntervalSeconds
- how often to run the disk store expiry thread. A large number of 120 seconds plus is recommendedregisteredEventListeners
- a notification service. Optionally null, in which case a new
one with no registered listeners will be created.Cache(CacheConfiguration, RegisteredEventListeners, BootstrapCacheLoader),
for full construction support of version 2.0 and higher features.
public Cache(String name, int maxElementsInMemory, MemoryStoreEvictionPolicy memoryStoreEvictionPolicy, boolean overflowToDisk, String diskStorePath, boolean eternal, long timeToLiveSeconds, long timeToIdleSeconds, boolean diskPersistent, long diskExpiryThreadIntervalSeconds, RegisteredEventListeners registeredEventListeners, BootstrapCacheLoader bootstrapCacheLoader)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object
into CacheManager.addCache(java.lang.String)
to specify parameters other than the defaults.
Only the CacheManager can initialise them.
name
- the name of the cache. Note that "default" is a reserved name for the defaultCache.maxElementsInMemory
- the maximum number of elements in memory, before they are evicted (0 == no limit)memoryStoreEvictionPolicy
- one of LRU, LFU and FIFO. Optionally null, in which case it will be set to LRU.overflowToDisk
- whether to use the disk storediskStorePath
- this parameter is ignored. CacheManager sets it using setter injection.eternal
- whether the elements in the cache are eternal, i.e. never expiretimeToLiveSeconds
- the default amount of time to live for an element from its creation datetimeToIdleSeconds
- the default amount of time to live for an element from its last accessed or modified datediskPersistent
- whether to persist the cache to disk between JVM restartsdiskExpiryThreadIntervalSeconds
- how often to run the disk store expiry thread. A large number of 120 seconds plus is recommendedregisteredEventListeners
- a notification service. Optionally null, in which case a new one with no registered listeners will be created.bootstrapCacheLoader
- the BootstrapCacheLoader to use to populate the cache when it is first initialised. Null if none is required.Cache(CacheConfiguration, RegisteredEventListeners, BootstrapCacheLoader),
for full construction support of version 2.0 and higher features.
public Cache(String name, int maxElementsInMemory, MemoryStoreEvictionPolicy memoryStoreEvictionPolicy, boolean overflowToDisk, String diskStorePath, boolean eternal, long timeToLiveSeconds, long timeToIdleSeconds, boolean diskPersistent, long diskExpiryThreadIntervalSeconds, RegisteredEventListeners registeredEventListeners, BootstrapCacheLoader bootstrapCacheLoader, int maxElementsOnDisk)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object
into CacheManager.addCache(java.lang.String)
to specify parameters other than the defaults.
Only the CacheManager can initialise them.
name
- the name of the cache. Note that "default" is a reserved name for the defaultCache.maxElementsInMemory
- the maximum number of elements in memory, before they are evicted (0 == no limit)memoryStoreEvictionPolicy
- one of LRU, LFU and FIFO. Optionally null, in which case it will be set to LRU.overflowToDisk
- whether to use the disk storediskStorePath
- this parameter is ignored. CacheManager sets it using setter injection.eternal
- whether the elements in the cache are eternal, i.e. never expiretimeToLiveSeconds
- the default amount of time to live for an element from its creation datetimeToIdleSeconds
- the default amount of time to live for an element from its last accessed or modified datediskPersistent
- whether to persist the cache to disk between JVM restartsdiskExpiryThreadIntervalSeconds
- how often to run the disk store expiry thread. A large number of 120 seconds plus is recommendedregisteredEventListeners
- a notification service. Optionally null, in which case a new one with no registered listeners will be created.bootstrapCacheLoader
- the BootstrapCacheLoader to use to populate the cache when it is first initialised. Null if none is required.maxElementsOnDisk
- the maximum number of Elements to allow on the disk. 0 means unlimited.Cache(CacheConfiguration, RegisteredEventListeners, BootstrapCacheLoader),
for full construction support of version 2.0 and higher features.
public Cache(String name, int maxElementsInMemory, MemoryStoreEvictionPolicy memoryStoreEvictionPolicy, boolean overflowToDisk, String diskStorePath, boolean eternal, long timeToLiveSeconds, long timeToIdleSeconds, boolean diskPersistent, long diskExpiryThreadIntervalSeconds, RegisteredEventListeners registeredEventListeners, BootstrapCacheLoader bootstrapCacheLoader, int maxElementsOnDisk, int diskSpoolBufferSizeMB)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object
into CacheManager.addCache(java.lang.String)
to specify parameters other than the defaults.
Only the CacheManager can initialise them.
name
- the name of the cache. Note that "default" is a reserved name for the defaultCache.maxElementsInMemory
- the maximum number of elements in memory, before they are evicted (0 == no limit)memoryStoreEvictionPolicy
- one of LRU, LFU and FIFO. Optionally null, in which case it will be set to LRU.overflowToDisk
- whether to use the disk storediskStorePath
- this parameter is ignored. CacheManager sets it using setter injection.eternal
- whether the elements in the cache are eternal, i.e. never expiretimeToLiveSeconds
- the default amount of time to live for an element from its creation datetimeToIdleSeconds
- the default amount of time to live for an element from its last accessed or modified datediskPersistent
- whether to persist the cache to disk between JVM restartsdiskExpiryThreadIntervalSeconds
- how often to run the disk store expiry thread. A large number of 120 seconds plus is recommendedregisteredEventListeners
- a notification service. Optionally null, in which case a new one with no registered listeners will be created.bootstrapCacheLoader
- the BootstrapCacheLoader to use to populate the cache when it is first initialised. Null if none is required.maxElementsOnDisk
- the maximum number of Elements to allow on the disk. 0 means unlimited.diskSpoolBufferSizeMB
- the amount of memory to allocate the write buffer for puts to the DiskStore.Cache(CacheConfiguration, RegisteredEventListeners, BootstrapCacheLoader),
for full construction support of version 2.0 and higher features.
public Cache(String name, int maxElementsInMemory, MemoryStoreEvictionPolicy memoryStoreEvictionPolicy, boolean overflowToDisk, String diskStorePath, boolean eternal, long timeToLiveSeconds, long timeToIdleSeconds, boolean diskPersistent, long diskExpiryThreadIntervalSeconds, RegisteredEventListeners registeredEventListeners, BootstrapCacheLoader bootstrapCacheLoader, int maxElementsOnDisk, int diskSpoolBufferSizeMB, boolean clearOnFlush)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object
into CacheManager.addCache(java.lang.String)
to specify parameters other than the defaults.
Only the CacheManager can initialise them.
name
- the name of the cache. Note that "default" is a reserved name for the defaultCache.maxElementsInMemory
- the maximum number of elements in memory, before they are evicted (0 == no limit)memoryStoreEvictionPolicy
- one of LRU, LFU and FIFO. Optionally null, in which case it will be set to LRU.overflowToDisk
- whether to use the disk storediskStorePath
- this parameter is ignored. CacheManager sets it using setter injection.eternal
- whether the elements in the cache are eternal, i.e. never expiretimeToLiveSeconds
- the default amount of time to live for an element from its creation datetimeToIdleSeconds
- the default amount of time to live for an element from its last accessed or modified datediskPersistent
- whether to persist the cache to disk between JVM restartsdiskExpiryThreadIntervalSeconds
- how often to run the disk store expiry thread. A large number of 120 seconds plus is recommendedregisteredEventListeners
- a notification service. Optionally null, in which case a new one with no registered listeners will be created.bootstrapCacheLoader
- the BootstrapCacheLoader to use to populate the cache when it is first initialised. Null if none is required.maxElementsOnDisk
- the maximum number of Elements to allow on the disk. 0 means unlimited.diskSpoolBufferSizeMB
- the amount of memory to allocate the write buffer for puts to the DiskStore.clearOnFlush
- whether the in-memory storage should be cleared when flush()
is called on the cacheCache(CacheConfiguration, RegisteredEventListeners, BootstrapCacheLoader),
for full construction support of version 2.0 and higher features.
public Cache(String name, int maxElementsInMemory, MemoryStoreEvictionPolicy memoryStoreEvictionPolicy, boolean overflowToDisk, String diskStorePath, boolean eternal, long timeToLiveSeconds, long timeToIdleSeconds, boolean diskPersistent, long diskExpiryThreadIntervalSeconds, RegisteredEventListeners registeredEventListeners, BootstrapCacheLoader bootstrapCacheLoader, int maxElementsOnDisk, int diskSpoolBufferSizeMB, boolean clearOnFlush, boolean isTerracottaClustered, boolean terracottaCoherentReads)
ConfigurationFactory
and clients can create these.
A client can specify their own settings here and pass the Cache
object
into CacheManager.addCache(java.lang.String)
to specify parameters other than the defaults.
Only the CacheManager can initialise them.
name
- the name of the cache. Note that "default" is a reserved name for the defaultCache.maxElementsInMemory
- the maximum number of elements in memory, before they are evicted (0 == no limit)memoryStoreEvictionPolicy
- one of LRU, LFU and FIFO. Optionally null, in which case it will be set to LRU.overflowToDisk
- whether to use the disk storediskStorePath
- this parameter is ignored. CacheManager sets it using setter injection.eternal
- whether the elements in the cache are eternal, i.e. never expiretimeToLiveSeconds
- the default amount of time to live for an element from its creation datetimeToIdleSeconds
- the default amount of time to live for an element from its last accessed or modified datediskPersistent
- whether to persist the cache to disk between JVM restartsdiskExpiryThreadIntervalSeconds
- how often to run the disk store expiry thread. A large number of 120 seconds plus is recommendedregisteredEventListeners
- a notification service. Optionally null, in which case a new one with no registered listeners will be created.bootstrapCacheLoader
- the BootstrapCacheLoader to use to populate the cache when it is first initialised. Null if none is required.maxElementsOnDisk
- the maximum number of Elements to allow on the disk. 0 means unlimited.diskSpoolBufferSizeMB
- the amount of memory to allocate the write buffer for puts to the DiskStore.clearOnFlush
- whether the in-memory storage should be cleared when flush()
is called on the cacheisTerracottaClustered
- whether to cluster this cache with TerracottaterracottaCoherentReads
- whether this cache should use coherent reads (usually should be true) unless optimizing for read-onlyCache(CacheConfiguration, RegisteredEventListeners, BootstrapCacheLoader),
for full construction support of version 2.0 and higher features.
Method Detail |
---|
public TransactionManagerLookup getTransactionManagerLookup()
TransactionManagerLookup
instancepublic void setTransactionManagerLookup(TransactionManagerLookup lookup)
initialise()
is called
setTransactionManagerLookup
in interface Ehcache
lookup
- The TransactionManagerLookup
instancepublic void initialise()
Store
.
This method creates the store and makes the cache ready to accept elements
initialise
in interface Ehcache
public CacheWriterManager getWriterManager()
getWriterManager
in interface Ehcache
protected DiskStore createDiskStore()
protected boolean isDiskStore()
public boolean isTerracottaClustered()
true
when the cache is clustered by Terracotta; or false
otherwisepublic void bootstrap()
bootstrap
in interface Ehcache
public final void put(Element element) throws IllegalArgumentException, IllegalStateException, CacheException
put
in interface Ehcache
element
- A cache Element. If Serializable it can fully participate in replication and the DiskStore. If it is
null
or the key is null
, it is ignored as a NOOP.
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
IllegalArgumentException
- if the element is nullpublic void putAll(Collection<Element> elements) throws IllegalArgumentException, IllegalStateException, CacheException
This method will throw a NullPointerException
if a null element or null key is encountered
in the collection, and a partial completion may result (as only some of the elements may have been put).
For each element that is put the registered CacheEventListener
s are notified of a newly put item
(notifyElementPut(...)
)
regardless of whether the individual put is a new put or an update.
putAll
in interface Ehcache
elements
- the collection of elements to be put in the cache.
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
IllegalArgumentException
public final void put(Element element, boolean doNotNotifyCacheReplicators) throws IllegalArgumentException, IllegalStateException, CacheException
put
in interface Ehcache
element
- A cache Element. If Serializable it can fully participate in replication and the DiskStore. If it is
null
or the key is null
, it is ignored as a NOOP.doNotNotifyCacheReplicators
- whether the put is coming from a doNotNotifyCacheReplicators cache peer, in which case this put should not initiate a
further notification to doNotNotifyCacheReplicators cache peers
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
IllegalArgumentException
- if the element is null
CacheException
public void putWithWriter(Element element) throws IllegalArgumentException, IllegalStateException, CacheException
putWithWriter
in interface Ehcache
element
- An object. If Serializable it can fully participate in replication and the DiskStore.
IllegalArgumentException
- if the element is null
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
- if no CacheWriter was registeredpublic final void putQuiet(Element element) throws IllegalArgumentException, IllegalStateException, CacheException
getQuiet(java.io.Serializable)
.
Synchronization is handled within the method.
Caches which use synchronous replication can throw RemoteCacheException here if the replication to the cluster fails.
This exception should be caught in those circumstances.
putQuiet
in interface Ehcache
element
- A cache Element. If Serializable it can fully participate in replication and the DiskStore. If it is
null
or the key is null
, it is ignored as a NOOP.
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
IllegalArgumentException
- if the element is null
CacheException
public final Element get(Serializable key) throws IllegalStateException, CacheException
getQuiet(Object)
to peak into the Element to see its last access time with get
Synchronization is handled within the method.
get
in interface Ehcache
key
- a serializable value. Null keys are not stored so get(null) always returns null
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
isExpired(net.sf.ehcache.Element)
public final Element get(Object key) throws IllegalStateException, CacheException
getQuiet(Object)
to peak into the Element to see its last access time with get
Synchronization is handled within the method.
get
in interface Ehcache
key
- an Object value
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
isExpired(net.sf.ehcache.Element)
public Map<Object,Element> getAll(Collection<?> keys) throws IllegalStateException, CacheException
Ehcache.getQuiet(Object)
to peek into the Element to see its last access time with get
getAll
in interface Ehcache
keys
- a collection of keys for which value is to be fetched
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
Ehcache.isExpired(net.sf.ehcache.Element)
public Element getWithLoader(Object key, CacheLoader loader, Object loaderArgument) throws CacheException
getWithLoader
in interface Ehcache
key
- key whose associated value is to be returned.loader
- the override loader to use. If null, the cache's default loader will be usedloaderArgument
- an argument to pass to the CacheLoader.
CacheException
- if the loading failspublic void load(Object key) throws CacheException
SelfPopulatingCache
load
in interface Ehcache
key
- key whose associated value to be loaded using the associated CacheLoader if this cache doesn't contain it.
CacheException
public Map getAllWithLoader(Collection keys, Object loaderArgument) throws CacheException
SelfPopulatingCache
getAllWithLoader
in interface Ehcache
keys
- a collection of keys to be returned/loadedloaderArgument
- an argument to pass to the CacheLoader.
CacheException
public void loadAll(Collection keys, Object argument) throws CacheException
SelfPopulatingCache
loadAll
in interface Ehcache
CacheException
public final Element getQuiet(Serializable key) throws IllegalStateException, CacheException
getQuiet
in interface Ehcache
key
- a serializable value
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
isExpired(net.sf.ehcache.Element)
public final Element getQuiet(Object key) throws IllegalStateException, CacheException
getQuiet
in interface Ehcache
key
- a serializable value
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
isExpired(net.sf.ehcache.Element)
public final List getKeys() throws IllegalStateException, CacheException
CacheKeySet
for
more details.
The List returned is not live. It is a copy.
The time taken is O(n). On a single CPU 1.8Ghz P4, approximately 8ms is required
for each 1000 entries.
getKeys
in interface Ehcache
Object
keys
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
CacheKeySet
public final List getKeysWithExpiryCheck() throws IllegalStateException, CacheException
getKeys()
, which is synchronised, and which takes 8ms per 1000 entries. This way
cache liveness is preserved, even if this method is very slow to return.
Consider whether your usage requires checking for expired keys. Because
this method takes so long, depending on cache settings, the list could be
quite out of date by the time you get it.
getKeysWithExpiryCheck
in interface Ehcache
Object
keys
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
public final List getKeysNoDuplicateCheck() throws IllegalStateException
getKeysNoDuplicateCheck
in interface Ehcache
Object
keys
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public final boolean remove(Serializable key) throws IllegalStateException
Element
from the Cache. This also removes it from any
stores it may be in.
Also notifies the CacheEventListener after the element was removed.
Synchronization is handled within the method.
Caches which use synchronous replication can throw RemoteCacheException here if the replication to the cluster fails.
This exception should be caught in those circumstances.
remove
in interface Ehcache
key
- the element key to operate on
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public final boolean remove(Object key) throws IllegalStateException
Element
from the Cache. This also removes it from any
stores it may be in.
Also notifies the CacheEventListener after the element was removed, but only if an Element
with the key actually existed.
Synchronization is handled within the method.
Caches which use synchronous replication can throw RemoteCacheException here if the replication to the cluster fails.
This exception should be caught in those circumstances.
remove
in interface Ehcache
key
- the element key to operate on
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public final Element removeAndReturnElement(Object key) throws IllegalStateException
Element
from the Cache and returns it. This also removes it from any
stores it may be in.
Also notifies the CacheEventListener after the element was removed, but only if an Element with the key actually existed.
Synchronization is handled within the method.
Caches which use synchronous replication can throw RemoteCacheException here if the replication to the cluster fails. This exception
should be caught in those circumstances.
removeAndReturnElement
in interface InternalEhcache
key
- the element key to operate on
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public void removeAll(Collection<?> keys) throws IllegalStateException
Element
from the Cache. This also removes them from any
stores it may be in. Throws a NullPointerException if any key in the collection is null
Also notifies the CacheEventListener after the elements were removed.
Notification is sent for every key irrespective of whether the key was present in the cache or not
This operation is partially completed if any element or any key is null
removeAll
in interface Ehcache
keys
- a collection of keys to operate on
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public final void removeAll(Collection<?> keys, boolean doNotNotifyCacheReplicators) throws IllegalStateException
NonstopConfiguration.getBulkOpsTimeoutMultiplyFactor()
times the timeout value in the nonstop config.
removeAll
in interface Ehcache
doNotNotifyCacheReplicators
- whether the put is coming from a doNotNotifyCacheReplicators cache peer,
in which case this put should not initiate a further notification to doNotNotifyCacheReplicators cache peers
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public final boolean remove(Serializable key, boolean doNotNotifyCacheReplicators) throws IllegalStateException
Element
from the Cache. This also removes it from any
stores it may be in.
Also notifies the CacheEventListener after the element was removed, but only if an Element
with the key actually existed.
Synchronization is handled within the method.
Caches which use synchronous replication can throw RemoteCacheException here if the replication to the cluster fails.
This exception should be caught in those circumstances.
remove
in interface Ehcache
key
- the element key to operate ondoNotNotifyCacheReplicators
- whether the remove is coming from a doNotNotifyCacheReplicators cache peer, in which case this remove should not initiate a
further notification to doNotNotifyCacheReplicators cache peers
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public final boolean remove(Object key, boolean doNotNotifyCacheReplicators) throws IllegalStateException
Element
from the Cache. This also removes it from any
stores it may be in.
Also notifies the CacheEventListener after the element was removed, but only if an Element
with the key actually existed.
Synchronization is handled within the method.
remove
in interface Ehcache
key
- the element key to operate ondoNotNotifyCacheReplicators
- whether the remove is coming from a doNotNotifyCacheReplicators cache peer, in which case this remove should not initiate a
further notification to doNotNotifyCacheReplicators cache peers
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public final boolean removeQuiet(Serializable key) throws IllegalStateException
Element
from the Cache, without notifying listeners. This also removes it from any
stores it may be in.
Listeners are not called.
removeQuiet
in interface Ehcache
key
- the element key to operate on
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public final boolean removeQuiet(Object key) throws IllegalStateException
Element
from the Cache, without notifying listeners. This also removes it from any
stores it may be in.
Listeners are not called.
Caches which use synchronous replication can throw RemoteCacheException here if the replication to the cluster fails. This exception
should be caught in those circumstances.
removeQuiet
in interface Ehcache
key
- the element key to operate on
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public boolean removeWithWriter(Object key) throws IllegalStateException
Element
from the Cache and any stores it might be in. This also removes through
to a CacheWriter. If no CacheWriter has been registered for the cache, then this method throws an exception.
Also notifies the CacheEventListener after the element was removed, but only if an Element
with the key actually existed.
removeWithWriter
in interface Ehcache
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public void removeAll() throws IllegalStateException, CacheException
removeAll
in interface Ehcache
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
public void removeAll(boolean doNotNotifyCacheReplicators) throws IllegalStateException, CacheException
removeAll
in interface Ehcache
doNotNotifyCacheReplicators
- whether the put is coming from a doNotNotifyCacheReplicators cache peer,
in which case this put should not initiate a further notification to doNotNotifyCacheReplicators cache peers
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
public void dispose() throws IllegalStateException
dispose
in interface Ehcache
IllegalStateException
- if the cache is already Status.STATUS_SHUTDOWN
public CacheConfiguration getCacheConfiguration()
getCacheConfiguration
in interface Ehcache
public final void flush() throws IllegalStateException, CacheException
flush
in interface Ehcache
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
public final int getSize() throws IllegalStateException, CacheException
getKeysWithExpiryCheck()
.size(), although see that method for
the approximate time that would take.
To get a very fast result, use getKeysNoDuplicateCheck()
.size().
If the disk store is being used, there will be some duplicates.
Note:getSize() is a very expensive operation in off-heap, disk and Terracotta implementations.
getSize
in interface Ehcache
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
CacheException
@Deprecated public final long calculateInMemorySize() throws IllegalStateException, CacheException
calculateInMemorySize
in interface Ehcache
IllegalStateException
CacheException
public boolean hasAbortedSizeOf()
hasAbortedSizeOf
in interface Ehcache
@Deprecated public final long calculateOffHeapSize() throws IllegalStateException, CacheException
calculateOffHeapSize
in interface Ehcache
IllegalStateException
CacheException
@Deprecated public final long calculateOnDiskSize() throws IllegalStateException, CacheException
calculateOnDiskSize
in interface Ehcache
IllegalStateException
CacheException
@Deprecated public final long getMemoryStoreSize() throws IllegalStateException
getMemoryStoreSize
in interface Ehcache
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
@Deprecated public long getOffHeapStoreSize() throws IllegalStateException
getOffHeapStoreSize
in interface Ehcache
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
@Deprecated public final int getDiskStoreSize() throws IllegalStateException
getDiskStoreSize
in interface Ehcache
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public final Status getStatus()
getStatus
in interface Ehcache
public final String getName()
getName
in interface Ehcache
public final void setName(String name) throws IllegalArgumentException
setName
in interface Ehcache
name
- the name of the cache. Should not be null. Should also not contain any '/' characters, as these interfere
with distribution
IllegalArgumentException
- if an illegal name is used.public String toString()
String
representation of Cache
.
toString
in interface Ehcache
toString
in class Object
public final boolean isExpired(Element element) throws IllegalStateException, NullPointerException
isExpired
in interface Ehcache
element
- the element to check
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
NullPointerException
- if the element is null
todo this does not need to be synchronizedpublic final Cache clone() throws CloneNotSupportedException
clone
in interface Ehcache
clone
in class Object
Cache
CloneNotSupportedException
public final Object getStoreMBean()
public final RegisteredEventListeners getCacheEventNotificationService()
getCacheEventNotificationService
in interface Ehcache
public final boolean isElementInMemory(Serializable key)
Since no assertions are made about the state of the Element it is possible that the Element is expired, but this method still returns true.
isElementInMemory
in interface Ehcache
public final boolean isElementInMemory(Object key)
Since no assertions are made about the state of the Element it is possible that the Element is expired, but this method still returns true.
isElementInMemory
in interface Ehcache
public final boolean isElementOffHeap(Object key)
Since no assertions are made about the state of the Element it is possible that the Element is expired, but this method still returns true.
public final boolean isElementOnDisk(Serializable key)
Since no assertions are made about the state of the Element it is possible that the Element is expired, but this method still returns true.
isElementOnDisk
in interface Ehcache
public final boolean isElementOnDisk(Object key)
Since no assertions are made about the state of the Element it is possible that the Element is expired, but this method still returns true.
isElementOnDisk
in interface Ehcache
public final String getGuid()
getGuid
in interface Ehcache
public final CacheManager getCacheManager()
getCacheManager
in interface Ehcache
public void evictExpiredElements()
evictExpiredElements
in interface Ehcache
public boolean isKeyInCache(Object key)
isKeyInCache
in interface Ehcache
key
- the key to check.
public boolean isValueInCache(Object value)
isValueInCache
in interface Ehcache
value
- to check for
public StatisticsGateway getStatistics() throws IllegalStateException
Statistics#STATISTICS_ACCURACY_BEST_EFFORT
.
The size is the number of Element
s in the MemoryStore
plus
the number of Element
s in the DiskStore
.
This number is the actual number of elements, including expired elements that have
not been removed. Any duplicates between stores are accounted for.
Expired elements are removed from the the memory store when
getting an expired element, or when attempting to spool an expired element to
disk.
Expired elements are removed from the disk store when getting an expired element,
or when the expiry thread runs, which is once every five minutes.
Statistics#STATISTICS_ACCURACY_GUARANTEED
.
This method accounts for elements which might be expired or duplicated between stores. It take approximately
200ms per 1000 elements to execute.
Statistics#STATISTICS_ACCURACY_NONE
.
The number given may contain expired elements. In addition if the DiskStore is used it may contain some double
counting of elements. It takes 6ms for 1000 elements to execute. Time to execute is O(log n). 50,000 elements take
36ms.
Note, the getSize()
method will have the same value as the size
reported by Statistics for the statistics accuracy of
getStatistics
in interface Ehcache
IllegalStateException
- if the cache is not Status.STATUS_ALIVE
public void setCacheManager(CacheManager cacheManager)
setCacheManager
in interface Ehcache
cacheManager
- the CacheManager for this cache to use.public BootstrapCacheLoader getBootstrapCacheLoader()
getBootstrapCacheLoader
in interface Ehcache
public void setBootstrapCacheLoader(BootstrapCacheLoader bootstrapCacheLoader) throws CacheException
setBootstrapCacheLoader
in interface Ehcache
bootstrapCacheLoader
- the loader to be used
CacheException
- if this method is called after the cache is initializedpublic boolean equals(Object object)
Object.equals(Object)
An Cache is equal to another one if it implements Ehcache and has the same GUID.
equals
in class Object
object
- the reference object with which to compare.
true
if this object is the same as the obj
argument; false
otherwise.hashCode()
,
Hashtable
public int hashCode()
java.util.Hashtable
.
The general contract of hashCode
is:
hashCode
method on each of
the two objects must produce the same integer result.
Object.equals(Object)
method, then calling the hashCode method on each of the
two objects must produce distinct integer results. However, the
programmer should be aware that producing distinct integer results
for unequal objects may improve the performance of hashtables.
hashCode
in class Object
Object.equals(Object)
,
Hashtable
public void registerCacheExtension(CacheExtension cacheExtension)
CacheExtension
with the cache. It will then be tied into the cache lifecycle.
If the CacheExtension is not initialised, initialise it.
registerCacheExtension
in interface Ehcache
public List<CacheExtension> getRegisteredCacheExtensions()
getRegisteredCacheExtensions
in interface Ehcache
public void unregisterCacheExtension(CacheExtension cacheExtension)
CacheExtension
with the cache. It will then be detached from the cache lifecycle.
unregisterCacheExtension
in interface Ehcache
public void setCacheExceptionHandler(CacheExceptionHandler cacheExceptionHandler)
ExceptionHandlingDynamicCacheProxy
.
setCacheExceptionHandler
in interface Ehcache
ExceptionHandlingDynamicCacheProxy
public CacheExceptionHandler getCacheExceptionHandler()
ExceptionHandlingDynamicCacheProxy
.
getCacheExceptionHandler
in interface Ehcache
ExceptionHandlingDynamicCacheProxy
public void registerCacheLoader(CacheLoader cacheLoader)
CacheLoader
with the cache. It will then be tied into the cache lifecycle.
The CacheLoader instance will be initialized when the cache itself is being initialized.
Should the cache already be initialized, CacheLoader.init()
will not be invoked.
If the loader requires initialization, the user will have to call it manually before registering it with a Cache instance
that's already alive
registerCacheLoader
in interface Ehcache
cacheLoader
- A Cache Loader to registerpublic void unregisterCacheLoader(CacheLoader cacheLoader)
CacheLoader
with the cache. It will then be detached from the cache lifecycle.
unregisterCacheLoader
in interface Ehcache
cacheLoader
- A Cache Loader to unregisterpublic List<CacheLoader> getRegisteredCacheLoaders()
getRegisteredCacheLoaders
in interface Ehcache
public void registerCacheWriter(CacheWriter cacheWriter)
CacheWriter
for this cache. It will then be tied into the cache lifecycle.
If the CacheWriter
is not initialised, initialise it.
registerCacheWriter
in interface Ehcache
cacheWriter
- A CacheWriter to registerpublic void unregisterCacheWriter()
CacheWriter
from the cache. It will then be detached from the cache lifecycle.
If not CacheWriter
was registered beforehand this operation has no effect.
unregisterCacheWriter
in interface Ehcache
public CacheWriter getRegisteredCacheWriter()
CacheWriter
that was registered for this cache.
getRegisteredCacheWriter
in interface Ehcache
CacheWriter
; or null
if none was registered beforepublic void registerDynamicAttributesExtractor(DynamicAttributesExtractor extractor)
registerDynamicAttributesExtractor
in interface Ehcache
public boolean isDisabled()
setDisabled(boolean)
method.
By default caches are enabled on creation, unless the net.sf.ehcache.disabled
system
property is set.
isDisabled
in interface Ehcache
?
public void setDisabled(boolean disabled)
net.sf.ehcache.disabled
system property is set
setDisabled
in interface Ehcache
disabled
- true if you wish to disable, false to enableisDisabled()
public Policy getMemoryStoreEvictionPolicy()
public void setMemoryStoreEvictionPolicy(Policy policy)
policy
- the new policypublic Object getInternalContext()
getInternalContext
in interface Ehcache
public void disableDynamicFeatures()
This is a one time operation. Once an Ehcache instance has had its dynamic operations disabled they cannot be re-enabled.
disableDynamicFeatures
in interface Ehcache
@Deprecated public boolean isClusterCoherent()
isClusterBulkLoadEnabled()
instead
isClusterCoherent
in interface Ehcache
@Deprecated public boolean isNodeCoherent()
isNodeBulkLoadEnabled()
instead
isNodeCoherent
in interface Ehcache
@Deprecated public void setNodeCoherent(boolean coherent)
setNodeBulkLoadEnabled(boolean)
instead
setNodeCoherent(true)
when the cache is already in coherent mode or
calling setNodeCoherent(false)
when already in incoherent mode will be a no-op.
It applies to coherent clustering mechanisms only e.g. Terracotta
When using Terracotta clustered caches with nonstop enabled, the timeout used by this method is
NonstopConfiguration.getBulkOpsTimeoutMultiplyFactor()
times the timeout value in the config.
setNodeCoherent
in interface Ehcache
coherent
- true transitions to coherent mode, false to incoherent mode@Deprecated public void waitUntilClusterCoherent()
waitUntilClusterBulkLoadComplete()
instead
waitUntilClusterCoherent
in interface Ehcache
public void addPropertyChangeListener(PropertyChangeListener listener)
Ehcache
addPropertyChangeListener
in interface Ehcache
listener
- public void removePropertyChangeListener(PropertyChangeListener listener)
Ehcache
removePropertyChangeListener
in interface Ehcache
listener
- public void firePropertyChange(String propertyName, Object oldValue, Object newValue)
propertyName
- oldValue
- newValue
- public Element putIfAbsent(Element element) throws NullPointerException
putIfAbsent
in interface Ehcache
element
- element to be added
NullPointerException
- if the element is null, or has a null keypublic Element putIfAbsent(Element element, boolean doNotNotifyCacheReplicators) throws NullPointerException
putIfAbsent
in interface Ehcache
element
- element to be addeddoNotNotifyCacheReplicators
- whether the put is coming from a doNotNotifyCacheReplicators cache peer, in which case this put should not initiate a
further notification to doNotNotifyCacheReplicators cache peers
NullPointerException
- if the element is null, or has a null keypublic boolean removeElement(Element element) throws NullPointerException
This is equivalent to
if (elementValueComparator.equals(cache.get(element.getObjectKey()), element)) { return cache.remove(element.getObjectKey()); } else return false;except that the action is performed atomically.
removeElement
in interface Ehcache
element
- Element to be removed
true
if the value was removed
NullPointerException
- if the element is null, or has a null keyCacheConfiguration.addElementValueComparator(net.sf.ehcache.config.ElementValueComparatorConfiguration)
public boolean replace(Element old, Element element) throws NullPointerException, IllegalArgumentException
replace
in interface Ehcache
old
- Element to be test againstelement
- Element to be cached
NullPointerException
- if the either Element is null or has a null key
IllegalArgumentException
- if the two Element keys are non-null but not equalpublic Element replace(Element element) throws NullPointerException
replace
in interface Ehcache
element
- Element to be cached
NullPointerException
- if the Element is null or has a null keypublic void clusterCoherent(boolean clusterCoherent)
clusterCoherent
in interface StoreListener
StoreListener.clusterCoherent(boolean)
public Set<Attribute> getSearchAttributes() throws CacheException
getSearchAttributes
in interface Ehcache
CacheException
public <T> Attribute<T> getSearchAttribute(String attributeName) throws CacheException
getSearchAttribute
in interface Ehcache
T
- type of the attributeattributeName
- the name of the attribute to retrieve
CacheException
- if no such attribute is defined for the given namepublic Query createQuery()
createQuery
in interface Ehcache
public boolean isSearchable()
isSearchable
in interface Ehcache
protected Sync getLockForKey(Object key)
key
-
public void acquireReadLockOnKey(Object key)
acquireReadLockOnKey
in interface Ehcache
key
- - The key that retrieves a value that you want to protect via lockingpublic void acquireWriteLockOnKey(Object key)
acquireWriteLockOnKey
in interface Ehcache
key
- - The key that retrieves a value that you want to protect via lockingpublic boolean tryReadLockOnKey(Object key, long timeout) throws InterruptedException
tryReadLockOnKey
in interface Ehcache
key
- - The key that retrieves a value that you want to protect via lockingtimeout
- - millis until giveup on getting the lock
InterruptedException
public boolean tryWriteLockOnKey(Object key, long timeout) throws InterruptedException
tryWriteLockOnKey
in interface Ehcache
key
- - The key that retrieves a value that you want to protect via lockingtimeout
- - millis until giveup on getting the lock
InterruptedException
public void releaseReadLockOnKey(Object key)
releaseReadLockOnKey
in interface Ehcache
key
- - The key that retrieves a value that you want to protect via lockingpublic void releaseWriteLockOnKey(Object key)
releaseWriteLockOnKey
in interface Ehcache
key
- - The key that retrieves a value that you want to protect via lockingpublic boolean isReadLockedByCurrentThread(Object key) throws UnsupportedOperationException
Only Terracotta clustered cache instances currently support querying a thread's read lock hold status.
isReadLockedByCurrentThread
in interface Ehcache
UnsupportedOperationException
- if querying the read lock state is not supportedpublic boolean isWriteLockedByCurrentThread(Object key)
isWriteLockedByCurrentThread
in interface Ehcache
public boolean isClusterBulkLoadEnabled() throws UnsupportedOperationException, TerracottaNotRunningException
Ehcache.isNodeBulkLoadEnabled()
returns true, this method will always return true.
Applies to caches clustered with Terracotta only.
isClusterBulkLoadEnabled
in interface Ehcache
UnsupportedOperationException
- if the cache is not clustered with Terracotta
TerracottaNotRunningException
public boolean isNodeBulkLoadEnabled() throws UnsupportedOperationException, TerracottaNotRunningException
Ehcache.isClusterBulkLoadEnabled()
method will always return true.
Applies to caches clustered with Terracotta only.
isNodeBulkLoadEnabled
in interface Ehcache
UnsupportedOperationException
- if the cache is not clustered with Terracotta
TerracottaNotRunningException
public void setNodeBulkLoadEnabled(boolean enabledBulkLoad) throws UnsupportedOperationException, TerracottaNotRunningException
setBulkLoadEnabled(true)
when the cache is already in bulk-load mode or
calling setBulkLoadEnabled(false)
when already NOT in bulk-load mode will be a no-op.
Applies to caches clustered with Terracotta only.
When using Terracotta clustered caches with nonstop enabled, the timeout used by this method is
NonstopConfiguration.getBulkOpsTimeoutMultiplyFactor()
times the timeout value in the nonstop config.
setNodeBulkLoadEnabled
in interface Ehcache
enabledBulkLoad
- true enables bulk-load, false disables it if not already disabled
UnsupportedOperationException
- if the cache is not clustered with Terracotta
TerracottaNotRunningException
public void waitUntilClusterBulkLoadComplete() throws UnsupportedOperationException, TerracottaNotRunningException
waitUntilClusterBulkLoadComplete
in interface Ehcache
UnsupportedOperationException
- if the cache is not clustered with Terracotta
TerracottaNotRunningException
public void recalculateSize(Object key)
recalculateSize
in interface InternalEhcache
key
- the key
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