EclipseLink provides several different cache types which have different memory requirements. The size of the cache (in number of cached objects) can also be configured. The cache type and size to use depends on the application, the possibility of stale data, the amount of memory available in the JVM and on the machine, the garbage collection cost, and the amount of data in the database.
The cache type of the shared object cache and its size can be configured with the type
and size
attributes of the @Cache
annotation. In addition, the cache type for the query results cache can be configured with the eclipselink.query-results-cache.type
persistence unit property. For more information, see the @Cache
annotation and eclipselink.query-results-cache.type
persistence unit property descriptions in the Java Persistence API (JPA) Extensions Reference for EclipseLink.
By default, EclipseLink uses a SOFT_WEAK
with an initial size of 100 objects. The cache size is not fixed, but just the initial size, EclipseLink will never eject an object from the cache until it has been garbage collected from memory. It will eject the object if the CACHE
type is used, but this is not recommended. The cache size of the SOFT_WEAK
and HARD_WEAK
is also the size of the soft or hard sub-cache that can determine a minimum number of objects to hold in memory.
You can configure how object identity is managed on a class-by-class basis. The ClassDescriptor
object provides the cache and identity map options described in Table 8-1.
Table 8-1 Cache and Identity Map Options
Option | Caching | Guaranteed Identity | Memory Use |
---|---|---|---|
|
Yes |
Yes |
Very High |
|
Yes |
Yes |
Low |
|
Yes |
Yes |
High |
SOFT_WEAK and HARD_WEAK Cache Type |
Yes |
Yes |
Medium-high |
There are two other options, NONE
, and CACHE
. These options are not recommend.
The value of the type
attribute can be overridden with these persistence unit properties: eclipselink.cache.type.<
ENTITY>
and eclipselink.cache.type.default
.
This option provides full caching and guaranteed identity: objects are never flushed from memory unless they are deleted.
It caches all objects and does not remove them. Cache size doubles whenever the maximum size is reached. This method may be memory-intensive when many objects are read. Do not use this option on batch operations.
Oracle recommends using this identity map when the data set size is small and memory is in large supply.
This option only caches objects that have not been garbage collected. Any object still referenced by the application will still be cached.
The weak cache type uses less memory than full identity map but also does not provide a durable caching strategy across client/server transactions. Objects are available for garbage collection when the application no longer references them on the server side (that is, from within the server JVM).
This option is similar to the weak cache type, except that the cache uses soft references instead of weak references. Any object still referenced by the application will still be cached, and objects will only be removed from the cache when memory is low.
The soft identity map allows for optimal caching of the objects, while still allowing the JVM to garbage collect the objects if memory is low.
These options are similar to the weak cache except that they maintain a most frequently used sub-cache. The sub-cache uses soft or hard references to ensure that these objects are not garbage collected, or only garbage collected only if the JVM is low on memory.
The soft cache and hard cache provide more efficient memory use. They release objects as they are garbage-collected, except for a fixed number of most recently used objects. Note that weakly cached objects might be flushed if the transaction spans multiple client/server invocations. The size of the sub-cache is proportional to the size of the cache as specified by the @Cache
size
attribute. You should set the cache size to the number of objects you wish to hold in your transaction.
Oracle recommends using this cache in most circumstances as a means to control memory used by the cache.
NONE
and CACHE
options do not preserve object identity and should only be used in very specific circumstances. NONE
does not cache any objects. CACHE
only caches a fixed number of objects in an LRU
fashion. These cache types should only be used if there are no relationships to the objects.Oracle does not recommend using these options. To disable caching, set the cache isolation to ISOLATED
instead.
Use the following guidelines when configuring your cache type:
For objects with a long life span, use a SOFT
, SOFT_WEAK
or HARD_WEAK
cache type. For more information on when to choose one or the other, see About the Internals of Weak, Soft, and Hard Cache Types..
For objects with a short life span, use a WEAK
cache type.
For objects with a long life span, that have few instances, such as reference data, use a FULL
cache type.
Note: Use the |
If caching is not required or desired, disable the shared cache by setting the cache isolation to ISOLATED
.
Note: Oracle does not recommend the use of |
See About the Internals of Weak, Soft, and Hard Cache Types.
The WEAK
and SOFT
cache types use JVM weak and soft references to ensure that any object referenced by the application is held in the cache. Once the application releases its reference to the object, the JVM is free to garbage collection the objects. When a weak or a soft reference is garbage collected is determined by the JVM. In general, expect a weak reference to be garbage collected with each JVM garbage-collection operation.
The SOFT_WEAK
and HARD_WEAK
cache types contain the following two caches:
Reference cache: implemented as a LinkedList
that contains soft or hard references, respectively.
Weak cache: implemented as a Map
that contains weak references.
When you create a SOFT_WEAK
or HARD_WEAK
cache with a specified size, the reference cache LinkedList
is exactly this size. The weak cache Map
has the size as its initial size: the weak cache will grow when more objects than the specified size are read in. Because EclipseLink does not control garbage collection, the JVM can reap the weakly held objects whenever it sees fit.
Because the reference cache is implemented as a LinkedList
, new objects are added to the end of the list. Because of this, it is by nature a least recently used (LRU) cache: fixed size, object at the top of the list is deleted, provided the maximum size has been reached.
The SOFT_WEAK
and HARD_WEAK
are essentially the same type of cache. The HARD_WEAK
was constructed to work around an issue with some JVMs.
If your application reaches a low system memory condition frequently enough, or if your platform's JVM treats weak and soft references the same, the objects in the reference cache may be garbage-collected so often that you will not benefit from the performance improvement provided by it. If this is the case, Oracle recommends that you use the HARD_WEAK
. It is identical to the SOFT_WEAK
except that it uses hard references in the reference cache. This guarantees that your application will benefit from the performance improvement provided by it.
When an object in a HARD_WEAK
or SOFT_WEAK
is pushed out of the reference cache, it gets put in the weak cache. Although it is still cached, EclipseLink cannot guarantee that it will be there for any length of time because the JVM can decide to garbage-collect weak references at anytime.