Caching Strategies for Data-Intensive Web Sites
|Daniela Florescu||Valerie Issarny|
|Patrick Valduriez||Khaled Yagoub|
1. IntroductionWe propose a customizable cache system architecture for Web sites whose content is dynamically extracted from large relational databases. Our solution improves the response time of those sites by customizing data caching at the various levels of data elaboration within the Web site, according to the users' access profiles. The system allows to cache the results of database queries, intermediate XML fragments and HTML files.
Performance problems may arise when a Web site provides access to large numbers of pages that are dynamically built from a database. In this context, producing a Web page may require costly interaction with the database system mainly, for connection and querying. The database cost adds up to the already non-negligeable base cost of Web page delivery. A solution for reducing the client waiting time relies on caching HTML pages. Despite good performance, this solution has several major drawbacks. It incurs significant space overhead, propagating updates from the database to the cached data is made more difficult, and the caching granularity (i.e. a page) is not always appropriate. For instance, different fragments in a page can have different update frequencies, and caching at the page level imposes the recomputation of the entire page, even if some parts of the page did not change.
To overcome these problems, we propose a Web site management system,
called Weave , supporting customized cache management
and automatic generation of runtime policies from declarative specification
of Web sites.
2. FeaturesIn the following, we briefly discus the key features and the corresponding components of the system:
- Weave is a data-intensive Web site management system. It relies on a declarative specification of the Web site through an XML graph data model that captures the structure and the content of the site independently of its graphical representation. A site schema then represents an XML view definition over a relational database. This enables managing the Web site at three levels: database, XML fragments, and HTML files. The graphical representation of the site is described using XSL style sheets.
- It comes with a declarative language which is WeaveL, for specifying the XML site schema. A WeaveL program consists of a set of site class specifications. Each class specification includes the declaration of the parameters identifying an instance of the class, the SQL query whose result gives all possible instances for the above parameters (describing how to produce all instances of the class), the specification of the data contained in an instance, and the specification of the hyperlinks from an instance of the respective class.
It proposes a three level caching architecture composed
of DB, XML, and HTML caches. The DB cache allows to cache, in the DBMS,
the results of parameterized SQL computation, under the form of relational
tables, and reuse the results for subsequent requests . This improves
performance of handling database queries, allows for efficient update
propagation, and enables caching of data that are shared among various pages.
Compared to the HTML cache, which caches HTML files on disk, the XML cache has the advantage of storing less data and allows for carefully controlling the granularity of the cached data, ranging from the entire page to fragments of the page. Moreover, it allows to reduce the load generated on the database by the Web server.
- The runtime behavior of a Web site can be controlled by a customized runtime policy so as to make optimal usage of the caches according to behavioral information such as the users' access patterns. A runtime policy specifies which kind of data to prefetch or to cache (HTML pages, XML fragments, relational tables, or any combination of those), which particular items to prefetch or to cache (e.g. particular HTML pages), and which actions to execute under different events like page requests, data updates or environmental changes.
- Finally, we introduce a high level language, which is WeaveRPL, for the abstract specification of the cache system's behavior (the specification is similar for the three caches). The language is based on event-condition rules. It enables to explicitly specify the global runtime policies implemented by an individual cache manager for setting overall features such as the maximum cache size, and the actions to be carried out upon a global event such as a cache overflow. Furthermore, it builds upon the declarative Web site specification, and allows the definition of per-site-class customized caching, basically, how to handle events related to data retrieval, addition, removal, and staleness.
Two components are then fundamental in the Weave system: the XML Generator, which applies the definition of the site schema to the underlying data and produces (fragments of) the XML site graph, and the HTML Generator, which applies XSL style sheets to XML fragments, resulting in browsable HTML pages.
The architecture includes also a manager for each individual cache and a cache scheduler. The cache managers export the same interface and implement usual cache operations for data retrieval, addition and removal, which are triggered following events such as HTTP requests and invalidations. The scheduler is the major component of the system. It has the task of coordinating the behavior of the other components. It receives HTTP requests and redirects them to the cache managers where data relating to a given page may be retrieved.
3. References http://caravel.inria.fr/~yagoub/weave.html
 Daniela Florescu, Alon Levy, Dan Suciu, and Khaled Yagoub. Run time management of data intensive Web sites. In Proc. of the Int. Conf. on Very Large Data Bases (VLDB), Edinburgh, UK, 1999.Postcript