ONJava.com -- The Independent Source for Enterprise Java
oreilly.comSafari Books Online.Conferences.

advertisement

AddThis Social Bookmark Button

Servlet Best Practices, Part 1
Pages: 1, 2, 3, 4

Think of Sessions as a Local Cache

Servlet sessions as implemented by HttpSession provide a simple and convenient mechanism to store information about a user. While sessions are a useful tool, it's important to know their limitations. They are not a good choice for acting as the back-end storage in real-world applications, no matter how tempting it might be to try it. Rather, sessions are best thought of as a handy local cache--a place to store information which, if lost, can be recovered or safely ignored.



To understand why this is, we should quickly review how sessions work. Sessions generally use cookies to identify users. During a client's first request to a server, the server sets a special cookie on the client that holds a server-generated unique ID. On a later request the server can use the cookie to recognize the request as coming from the same client. The server holds a server-side hashtable that associates the cookie ID keys with HttpSession object values. When a servlet calls request.getSession( ), the server gets the cookie ID, looks up the appropriate HttpSession, and returns it. To keep memory in check, after some period of inactivity (typically 30 minutes) or on programmer request, the session expires and the stored data is garbage-collected.

Session data is inherently transient and fragile. Session data will be lost when a session expires, when a client shuts down the browser,[2] when a client changes browsers, when a client changes machines, or when a servlet invalidates the session to log out the user. Consequently, sessions are best used for storing temporary information that can be forgotten--because either it's nonpermanent or is backed by a real store.

When information needs to be persistent, I recommend using a database, an EJB backed by a database, or another formal back-end data store. These are much safer, portable, and reliable, and they work better for backups. If the data must have a long-term association with a user, even when he moves between machines, use a true login mechanism that allows the user to relogin and reassociate. Servlet sessions can help in each case, but their role should be limited to a local cache, as we'll see in the next section.

Architecture of a shopping cart

Let's look at how you can architect session tracking for a shopping-cart application (think Amazon.com). Here are some requirements for your shopping cart:

  • Logged-in users get a customized experience.

  • Logins last between browser shutdowns.

  • Users can log out and not lose cart contents.

  • Items added to a cart persist for one month.

  • Guests are allowed to place items in the cart (although contents are not necessarily available to the guest for the long term or from a different browser).

  • Purchasing items in the cart requires a password for safety.

Servlet sessions alone don't adequately satisfy these requirements. With the right server you might be able to get sessions to persist for a month, but you lose the information when a user changes machines. Trying to use sessions as storage, you also need to take pains to expire individual items (but not the whole session) after a month, while at the same time making sure to put nothing into the session that shouldn't be kept indefinitely, and you need a way to log out a user without invalidating his cart contents. There's no way to do this in API 2.3!

Here's one possible architecture for this application that takes advantage of sessions as a local cache: if the user has not logged in, he is a guest, and the session stores his cart contents. The items persist there as long as the session lasts, which you have deemed sufficient for a guest. However, if the user has logged in, the cart contents are more safely recorded and pushed through to a back-end database for semi-permanent storage. The database will be regularly swept to remove any items added more than a month earlier. For performance, the user's session should be used to store cart contents even if the user is logged in, but the session should act as a local cache of the database--allowing later requests to display cart information without going across the wire to the database on each request.

The user logins can be tracked with a manually set cookie with a long expiration time. After a form-based login, the cookie stores a hash of the user's ID; the hash corresponds to the database records. On later visits, the user can be automatically recognized and his cart contents loaded into the session. For safety, on checkout the server logic asks for password verification before proceeding. Even though the server knows the client's identity, because the login is automatic the billing activity should be protected. The marker stating that the password was verified would, of course, be stored in the session, with a 30-minute timeout being fairly appropriate! A user-request logout would require only the removal of the cookie. The full architecture is shown in Figure 3-3.

Figure 3-3. Shopping-cart architecture
Figure 3-3. Shopping-cart architecture

In this example you proposed custom login management. The default servlet form-based login could be used--however, it's designed for single-session login to restrict access to secure content. It is not designed for multisession login to identify users for shopping-cart applications.

When to use sessions

As shown in the shopping-cart example, sessions are useful but aren't a panacea. Sessions make the best sense in the following situations:

Storing login status
The timeout is useful, and changes between browsers or machines should naturally require a new login.

Storing user data pulled from a database
The local cache avoids an across-the-wire database request.

Storing user data that's temporary
Temporary data includes search results, form state, or a guest's shopping-cart contents that don't need to be preserved over the long term.

Don't Use SingleThreadModel

Now, onto a servlet feature for which there's never a good use: SingleThreadModel. Here's my advice: don't use it. Ever.

This interface was intended to make life easier for programmers concerned about thread safety, but the simple fact is that SingleThreadModel does not help. It's an admitted mistake in the Servlet API, and it's about as useful as a dud firecracker on the Fourth of July.

Here's how the interface works: any servlet implementing SingleThreadModel receives a special lifecycle within the server. Instead of allocating one servlet instance to handle multiple requests (with multiple threads operating on the servlet simultaneously), the server allocates a pool of instances (with at most one thread operating on any servlet at a time). From the outside this looks good, but there's actually no benefit.

Imagine a servlet needing access to a unique resource, such as a transactional database connection. That servlet needs to synchronize against the resource regardless of the servlet's own thread model. There's no difference if two threads are on the same servlet instance or on different servlet instances; the problem is that two threads are trying to use the connection, and that's solved only with careful synchronization.

In This Series

Servlet Best Practices, Part 3
In this final excerpt on servlets from Java Enterprise Best Practices, we present how to effectively send files for download. Getting it right across Web browsers takes a bit of work, but with this tip you'll have it right in no time.

Servlet Best Practices, Part 2
In part two of three in this series of book excerpts on servlet best practices from Java Enterprise Best Practices, learn about caching with servlets.

Imagine instead that multiple copies of the resources are available, but access to any particular one needs to be synchronized. It's the same situation. The best approach is not to use SingleThreadModel, but to manage the resources with a pool that all servlets share. For example, with database connections it's common to have connection pools. You could instead use SingleThreadModel and arrange for each servlet instance to hold its own copy of the resource, but that's a poor use of resources. A server with hundreds of servlets might require thousands of resource instances.

As a book author, I've kept my eye out for a compelling use for SingleThreadModel. (After all, I need to write book examples showing how best to use this feature.) The most justifiable use I found was given to me by a development manager who said the programmers he hired were used to C global variables. By implementing SingleThreadModel they could pass data between servlet method calls using instance variables rather than parameters. While SingleThreadModel accomplishes that, it's poor form and inadvisable unless you're hiring Java newbies. When that's the best use case, you know there's no good use case. The bottom line: don't use SingleThreadModel.

In the next installment, learn about caching with Servlets.

1. There's actually a research project underway with the goal of tracking servlet framework features and implementing the same demonstration web application across every framework. See http://www.waferproject.org for more information.

2. The session data isn't lost immediately when a browser is shut down, of course, because no notification is sent to the server. However, the session data will be lost because the browser will lose its session cookies, and after a timeout the server will garbage-collect the abandoned session data.

The O'Reilly Java Authors , each an expert in his particular field, wrote chapters on different aspects of Java enterprise development.


Return to ONJava.com.