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Revision as of 19:00, 9 November 2006
Overview
I'm not sure how the web application development community got started using the term "authorization"-- but I'm not crazy about it. The simple problem is that developers frequently confuse it with "authentication" -- especially when it is abbreviated "auth". But, more fundamentally, people have usedthe term "access control" for the past 30 years on every type of system except web applications, and it's confusing to change. For this article, I'm going to talk about "access control" -- just remember that there are a whole bunch of people who like to call it "authorization."
Whatever you call it, controlling access is an incredibly important security mechanism. It's critical in any site whereusers shouldn't access other users' information, or any site where there are different roles and privileges -- basically anyenterprise web site. Yet we've uncovered a stunning number of poorly conceived and implemented access control schemes. We frequently find flawed implementations that would allow users to access other user's data and invoke unauthorized functions. Many of the access control implementations we've seen look like the set of rules controlling how power is shared between parts of the U.S. power grid -- a Byzantine labyrinth of rules, roles, privileges, access control lists, and exceptions.
Implementing access control is a relatively simple problem in theory. Once you authenticate a user, you need a mechanism to controlthe resources and functions that user can access. Those of you thinking -- "Well isn't that what JAAS is for?" -- well, sort of.JAAS provides a sophisticated authentication framework supporting a number of different methods. And JAAS also includes someaccess control support. But JAAS requires some serious development to use for access control in a web application -- it's very difficult to customize. And as we'll see, that's the most important thing for an access control mechanism.
Let's start at the beginning. There is an enormous body of literature on the design of access control mechanisms. There are also a huge number of examples of time-tested approaches to controlling access. Think of access control lists on files in most operating systems. Or the Java Security Manager that controls access of programs to Virtual Machine functions. Unfortunately, many of the access control schemes used in web application environments haven't taken advantage of this history. Instead they tend to be haphazardly designed. All the previous access control theory was developed in the context of operating systems and databases, so the mechanisms don't match up perfectlywith web applications, making them difficult to apply.
Background
I strongly recommend that you centralize your access control mechanism -- it's just way too easy to make a mistake in a distributed mechanism. So, instead of doing a little access control checking in each servlet or JSP, use a "front-door" servlet to do the access control checking. But you're going to need some information to make those decisions. You need to have information aboutwho is doing the accessing. You also need information about what is being accessed. The time-honored way of representing this information is called an "access control matrix."
Okay, so let's work through an example of a simple access control matrix for a typical web application. Then we'll discuss a few of the options for implementing the model. As it turns out, the First National Bank of OWASP (FNBO) is starting to design their new online banking site. They're building a deluxe site with features including bill pay, account management, tax planning, mortgages, and remote administrative functions. At the outset, all they know for sure is that they are subject to the GLBA and COPPA, so they're going to have to be careful with people's personal information.
An access control matrix lists the users, groups and roles down the left-hand side, and all the resources and functions across the top. The matrix is a concise way to represent fairly sophisticated rules,and, once it is finished, it should be a relatively simple matter to implement the rules as described in the matrix. FNBO has already decided that they will be using the standard J2EE authentication mechanisms built into JAAS, and so they will have access to role information. They have already come up with an initial set of roles:
- Administrators can access only the administrative pages
- Guests can access all the public areas of the site
- Owners can access their account, move funds, and review transactions
- Users can view an Owner's account, but not make changes
- Planners can access the sites financial planning and tax preparation functions
- Payers can use the site's bill paying function
They've put together an access control matrix that looks like this:
Designing Your Access Control Mechanism
The example above is very simple and the whole approach may even seem trivial, but the exercise of working out the users, roles, assets, capabilities, and how tochoose rows and columns can get complicated. If you can't even articulate the access control rules for yourweb application, it is very unlikely that it is implemented correctly.
1. Label Your Users
Access control is dependent on good authentication. You have to know who you're dealing with before you can say whether they're allowed to see a resource or access a function. But you may want to base your access control decision on additional details about that person. Ordinarily, access control is based on the fact that the user has a particular role or group membership. But you can do access control based on age, sex, height, number of contributions in the past 30 days, or anything else you want to label your users with.
Labeling is just a concept -- it means that you've associated a piece of metadata with a resource.To build something like this, you'll want to augment your user repository to store these attributes. You maywant to identify groups for some of these attributes to make them easier to manage. For example, you may want to label users as short, normal, or tall instead of tracking their actual height. Managing these attributes can be difficult, so you'll want to take user storage seriously. Attempting to use a fancied up version of a passwd file is not going to meet the needs of many sites.
2. Label Your Resources and Functions
You also need some way to get information about the resource or function that was requested by a user. The naive approach is to use the URL, like http://www.fnbo.com/documentation?id=8834. But there's typically not enough information there,typically just the document number. You probably would prefer to have more information about that document. Maybe you want to restrict access to documents written by a particular author, or by date, or by size, or by whether there'sa charge for the document or not. So you should be thinking about where you're going to store that information.
Also, many web sites are not just about content anymore. They provide functions to buy, sell, copy, delete, move, and anything else you can think of. Controlling access to functions is a little different from controlling access to content. This is the reason why many of the traditional access control mechanisms don't work so well for web applications. If your site offers functions, you better include them in the access control matrix. And that means you'll need to mark them with all the information you'll need to make access decisions.
3. Capture the Rules
The last piece is the most important. Once you've got all the information together, you need a way to specify who can access what. You want to articulate the rules in the most succinct, expressive way possible. There's no universally rightway to do this. ACL's or capabilities lists are the most popular approaches, but they can be difficult to maintain. If your access control rules don't change much, you can write them in Java and compile them into your application. Many times this is the most clear and concise way to do things. The AccessController plus security.policy file built into J2SE is another strong model.
One more thing. Some sites will want to be able to specify how the access will be performed. Perhaps some users are only allowed to read, while others can read and write. Your list of access methodswill be custom to your site. Typical access methods for content are things like read, write, edit, and delete. Access methods for functions are more likely to be things like start, interrupt, check status, or debug. This requires a small extension to the access control matrix shown above. Rather than marking each cell with an "X", you'll need to list the appropriate permissions in each cell.
How to Test a Site's Access Control Scheme
Far too many sites use only their HTML interface to enforce access control -- if there's no button on the screen, then there's no way for a user to get to it, right? In these sites, there really is no access control mechanism. The only protection is a touch of security by obscurity. The OWASP Testing project is going to detail how to test access control, but here's a short preview.
Without getting too technical, the basic idea in testing a site's access control scheme is to attempt actions that should not be allowed (based on a real or presumed access control matrix) to see if they work. You'll need accounts for each of the account types in the access control matrix. The first step is to identify how each function is accessed. You'll want to use a proxy like OWASP's WebScarab to see what's going on under the hood. Then all you have to do is replay those functions while logged in as another user who should be denied access. I think you'll be surprised at what you find out.