This site is the archived OWASP Foundation Wiki and is no longer accepting Account Requests.
To view the new OWASP Foundation website, please visit https://owasp.org
Difference between revisions of "Application Denial of Service"
m |
|||
(One intermediate revision by one other user not shown) | |||
Line 36: | Line 36: | ||
You should also check your error handling scheme to ensure that an error cannot affect the overall operation of the application. | You should also check your error handling scheme to ensure that an error cannot affect the overall operation of the application. | ||
+ | |||
+ | __NOEDITSECTION__ |
Latest revision as of 17:32, 22 April 2010
Description
Web applications are particularly susceptible to denial of service attacks. Note that network denial of service attacks, such as SYN floods, are a separate problem that is outside the scope of this document.
A web application can’t easily tell the difference between an attack and ordinary traffic. There are many factors that contribute to this difficulty, but one of the most important is that, for a number of reasons, IP addresses are not useful as an identification credential. Because there is no reliable way to tell where an HTTP request is from, it is very difficult to filter out malicious traffic. For distributed attacks, how would an application tell the difference between a true attack, multiple users all hitting reload at the same time (which might happen if there is a temporary problem with the site), or getting “slashdotted”?
Most web servers can handle several hundred concurrent users under normal use. A single attacker can generate enough traffic from a single host to swamp many applications. Load balancing can make these attacks more difficult, but far from impossible, especially if sessions are tied to a particular server. This is a good reason to make an application’s session data as small as possible and to make it somewhat difficult to start a new session.
Once an attacker can consume all of some required resource, they can prevent legitimate users from using the system. Some resources that are limited include bandwidth, database connections, disk storage, CPU, memory, threads, or application specific resources. All of these resources can be consumed by attacks that target them. For example, a site that allows unauthenticated users to request message board traffic may start many database queries for each HTTP request they receive. An attacker can easily send so many requests that the database connection pool will get used up and there will be none left to service legitimate users.
Other variants of these attacks target system resources related to a particular user. For example, an attacker might be able to lock out a legitimate user by sending invalid credentials until the system locks out the account. Or the attacker might request a new password for a user, forcing them to access their email account to regain access. Alternatively, if the system locks any resources for a single user, then an attacker could potentially tie them up so others could not use them. Some web applications are even susceptible to attacks that will take them offline immediately. Applications that do not properly handle errors can even take down the web application container. These attacks are particularly devastating because they instantly prevent all other users from using the application.
There are a wide variety of these attacks, most of which can be easily launched with a few lines of perl code from a low powered computer. While there are no perfect defenses to these attacks, it is possible to make it more difficult for them to succeed.
Environments Affected
All web servers, application servers, and web application environments are susceptible to denial of service attacks.
Examples and References
OWASP Guide to Building Secure Web Applications and Web Services
How to Determine If You Are Vulnerable
One of the hardest parts of denial of service attacks is determining whether you are vulnerable. Load testing tools, such as JMeter can generate web traffic so that you can test certain aspects of how your site performs under heavy load. Certainly one important test is how many requests per second your application can field. Testing from a single IP address is useful as it will give you an idea of how many requests an attacker will have to generate in order to damage your site.
To determine if any resources can be used to create a denial of service, you should analyze each one to see if there is a way to exhaust it. You should particularly focus on what an unauthenticated user can do, but unless you trust all of your users, you should examine what an authenticated user can do as well.
How to Protect Yourself
Defending against denial of service attacks is difficult, as there is no way to protect against these attacks perfectly. As a general rule, you should limit the resources allocated to any user to a bare minimum. For authenticated users, it is possible to establish quotas so that you can limit the amount of load a particular user can put on your system. In particular, you might consider only handling one request per user at a time by synchronizing on the user’s session. You might also consider dropping any requests that you are currently processing for a user when another request from that user arrives.
For unauthenticated users, you should avoid any unnecessary access to databases or other expensive resources. Try to architect the flow of your site so that an unauthenticated user will not be able to invoke any expensive operations. You might consider caching the content received by unauthenticated users instead of generating it or accessing databases to retrieve it.
You should also check your error handling scheme to ensure that an error cannot affect the overall operation of the application.