WAS v8.5 > Develop applications > Develop Dynamic cachingConfigure cacheable objects with the cachespec.xml file
Use this task to define cacheable objects inside the cachespec.xml, found inside the web module WEB-INF or enterprise bean META-INF directory.
Enable the dynamic cache. Refer to the Using the dynamic cache service article for more information.
We can save a global cachespec.xml in the application server properties directory, but the recommended method is to place the cache configuration file with the deployment module. The root element of the cachespec.xml file is <cache>, which contains <cache-entry> elements.
In situations where there is a global cachespec.xml file in the application server properties directory, and a cachespec.xml file in an application, the entries in the two cachespec.xml files are merged. If there are conflicting entries in the two files, the entries in the in the cachespec.xml file that is in the application override the entries in the global cachespec.xml file for that application.
The <cache-entry> element can be nested within the <cache> element or a <cache-instance> element. The <cache-entry> elements that are nested within the <cache> element are cached in the default cache instance. Any <cache-entry> elements that are in the <cache-instance> element are cached in the instance specified in the name attribute on the <cache-instance> element.
Within a <cache-entry> element are parameters that allow us to complete the following tasks to enable the dynamic cache with the cachespec.xml file:
- Develop a cachespec.xml file.
- Create a caching configuration file.
In the WAS_ROOT/properties directory, locate the cachespec.sample.xml file.
- Copy the cachespec.sample.xml file to cachespec.xml in web module WEB-INF or enterprise bean META-INF directory.
- Define the cache-entry elements necessary to identify the cacheable objects. See the cachespec.xml file topic for a list of elements.
- Develop cache ID rules.
To cache an object, WebSphere Application Server must know how to generate unique IDs for different invocations of that object. The <cache-id> element performs that task. Each cache entry can have multiple cache-ID rules that run in order until either a rule returns cache-ID not empty or no more rules remain to run. If no cache-ID generation rules produce a valid cache ID, then the object is not cached. Develop the cache IDs in one of two ways:
- Use the <component> element defined in the cache policy of a cache entry (recommended). Refer to the cachespec_xml file topic for more information about the <component> element.
- Write custom Java code to build the ID from input variables and system state. To configure the cache entry to use the ID generator, specify your IdGenerator in the XML file using the <idgenerator> tag, for example:
<cache-entry> <class>servlet</class> <name>/servlet/CommandProcessor</name> <cache-id> <idgenerator>com.mycompany.SampleIdGeneratorImpl</idgenerator> <timeout>60</timeout> </cache-id> </cache-entry>- Specify dependency ID rules. Use dependency ID elements to specify additional cache group identifiers that associate multiple cache entries to the same group identifier.
The dependency ID is generated by concatenating the dependency ID base string with the values returned by its component elements. If a required component returns a null value, then the entire dependency ID does not generate and is not used. We can validate the dependency IDs explicitly through the dynamic cache API, or use another cache-entry <invalidation> element. Multiple dependency ID rules can exist per cache entry. All dependency ID rules run separately. See cachespec.xml file topic for a list of <component> elements.
- Invalidate other cache entries as a side effect of this object start, if relevant. We can define invalidation rules in exactly the same manner as dependency IDs. However, the IDs that are generated by invalidation rules are used to invalidate cache entries that have those same dependency IDs.
The invalidation ID is generated by concatenating the invalidation ID base string with the values returned by its component element. If a required component returns a null value, then the entire invalidation ID is not generated and no invalidation occurs. Multiple invalidation rules can exist per cache-entry. All invalidation rules run separately.
- Ensure your cache policy is working correctly. We can modify the policies within the cachespec.xml file while the application is running. The dynamic cache reloads the updated file automatically. If you are caching static content and you are adding the cache policy to an application for the first time, you must restart the application. We do not need to restart the application server to activate the new cache policy. Refer to the Verifying the cacheable page topic for more information.
Typically you declare several <cache-entry> elements inside a cachespec.xml file.
When new versions of the cachespec.xml are detected, the old policies are replaced. Objects that cached through the old policy file are not automatically invalidated from the cache; they are either reused with the new policy or eliminated from the cache through its replacement algorithm.
For each of the three IDs (cache, dependency, invalidation) generated by cache entries, a <cache-entry> can contain multiple elements. The dynamic cache runs the <cache-id> rules in order, and the first one that successfully generates an ID is used to cache that output. If the object is to be cached, each one of the <dependency-id> elements is run to build a set of dependency IDs for that cache entry. Finally, each of the <invalidation> elements are run, building a list of IDs the dynamic cache invalidates, whether or not this object is cached.
Subtopics
- Verifying the cacheable page
Use this task to verify the dynamic cache service has its cache policies configured correctly and is serving cached content.- cachespec.xml file
The cache parses the cachespec.xml file when the server starts, and extracts a set of configuration parameters from each cache-entry element. Every time a new servlet or other cacheable object initializes, the cache attempts to match each of the cache-entry elements to find the configuration information for that object.- Verifying the cacheable page
Use this task to verify the dynamic cache service has its cache policies configured correctly and is serving cached content.
Related concepts:
Additional Application Programming Interfaces (APIs)
Related
Tasks: Using the dynamic cache service to improve performance
Use the dynamic cache service