Developed by the Open Web Application Security Project (OWASP), WebScarab is first and foremost a proxy used to analyze browser requests and server replies. In addition to serving as a tool for packet analysis, you can use it to "fuzz" sites, looking for some of the same exploits mentioned above. To use WebScarab, you first configure proxy settings in your Web browser. For Mozilla Firefox, perform these steps (see Firefox keyboard shortcuts for the alternative accessible steps):
- Click Tools > Options > Advanced > Network.
- Click Settings.
The Connection Settings window opens.
- Select the Manual proxy configuration option.
- For both HTTP Proxy and SSL Proxy, type
localhost, and set the port to 8008.
- Make sure the No proxy for box is empty, then click OK.
Figure 1. Firefox connection settings
For Windows® Internet Explorer®, perform the following steps (see Internet Explorer keyboard shortcuts in the IE Help menu for the alternative accessible steps):
- Click Tools > Internet Options > Connections.
- Click LAN Settings to open the Proxy Settings window.
- Under Proxy Servers, select the Use a proxy server for your LAN check box, then click Advanced.
- For HTTP and Secure, type
localhostfor the proxy address to use, then type
8008for the port.
- Make sure the Exceptions box is empty, then click OK.
Figure 2. Setting the proxy
Now, you are ready to scan a Web site.
The following examples use the Hacme Casino site, which is built by Foundstone with certain vulnerabilities so that it can be used for training purposes. The site comes packaged with Apache Tomcat, as well, so you can run it locally if you wish.
Next, open WebScarab. Once you launch it, you will see only two tabs: Summary and Intercept. Because you want to use WebScarab for fuzzing, change the view by clicking Tools > Use full-featured interface > OK. You will then be asked to restart WebScarab. When you have done so, you can begin with the interface shown in Figure 3. (WebScarab provides a list of keyboard shortcuts—unfortunately only two.)
Figure 3. The WebScarab interface
To start your new session, click File > New. You are presented with a box that asks where you would like to save your session. Select or create the storage directory, then click OK. When you use WebScarab with Hacme Casino, start the server before opening your browser. Then, in the browser's address bar, type
Once you open the browser, you should start seeing some activity in WebScarab, because WebScarab is capturing all the requests and replies between the browser and the server. Because you want to use the fuzzing feature to test for vulnerabilities, first look at where the different vulnerabilities can exist. Start by looking at the login as a potential exploit. To test the login, you should record the interaction that takes place between the browser and the server. There is no need for a successful login here, so you can enter whatever you like for the user name and password: For this example, enter
casino for both the user name and password, then click Login.
Of course, the login will be unsuccessful, but that is not what you're interested in. Instead, go back to WebScarab. In the Path column, right-click account\login, then click Use as fuzz template, as shown in Figure 4.
Figure 4. The fuzzing template
Perform the following steps:
- Click the Fuzzer tab at the top of the WebScarab interface.
- Click Source.
- Browse to the location of your dictionary. (I used all_attack.txt)
- Provide a description of the source, then click Add.
- Click Close to return to the Fuzzer window.
Now, go to the
user_login parameter and click in the area under the Fuzz Source column. Because you have only loaded one source—All attack—select it from the drop-down menu. Do the same for the
user_password parameter, as shown in Figure 5.
Figure 5. Selecting the attack file
Now that you have defined the source, click Start to begin the process. The fuzzer inserts the parameters from the file into both the user name and password inputs. You should see some activity on the screen as the tool completes each attempt. Typically, you would need to examine each ID in the results to analyze what takes place with each attempt. However, because you know that the added strings will produce a result, you can see what can happen when the fuzzer is successful.
Double-click the first string in the example, shown in Figure 6.
Figure 6. Finding a vulnerability
Note that in the top circle, the value for
‘) OR 1=1--. Next, note that the location has changed from
http://localhost:3000, which is the home page, to
http://localhost:3000/lobby/games, which is what a user who successfully logged in would see. What does this mean? It means that your site is vulnerable. Because
‘) OR 1=1-- is an SQL string, the site is vulnerable to an SQL injection. Scroll through the results using the Next button, and look for that value. Notice that the location here remains
http://localhost:3000. You know from this result that inserting this type of string would not result in a successful login attempt, so the site is not vulnerable to this type of attack.
Another useful tool for security testing is Paros Proxy. Like WebScarab, Paros captures conversations between the browser and the server for analysis. You can also use it to test for vulnerabilities on a site. To run Paros, you must change the port number used in the proxy settings of your browser. For WebScarab, you used 8008; change this port to 8080 before running Paros, or the tool won’t work. For this exercise, the example uses WebGoat, another tool from OWASP. Like Hacme Casino, WebGoat runs using the Tomcat server as a local host. For the purposes of this article, WebGoat shows more vulnerabilities in the Paros scan than would Hacme Casino.
After changing the port, open Paros. Then, perform these steps:
- In the WebGoat folder, double-click WebGoat.ba to start Tomcat.
- Open your browser, then type
guestfor the user name and password.
- Click Start WebGoat.
Now, go back to Paros and start your scan of the WebGoat site. Of course, you can use your own site instead by entering its URL in the address bar.
In Paros, expand the Sites folder to see http://localhost in the tree. Expand this folder to bring up WebGoat. Highlight WebGoat, and then click Analyse Scan. This immediately begins the scan of the site. Large sites may take a while, but this one should only take a few seconds. Once it starts scanning, the bottom pane changes to the Alerts tab automatically (see Figure 7). When the scan is complete, click OK in the pop-up window that tells you where to find the report.
Figure 7. Viewing alerts
You can expand the alerts to show them in greater detail. You can also view the report, which offers much more information. First, however, save the scan results by clicking File > Save As, choosing a location and file name for your scan, and then clicking Save.
To view a report, click Report > Last Scan Report. Click OK in the pop-up window, and a new browser tab opens with the report of the scan results, as shown in Figure 8. This report provides a great deal of information regarding each vulnerability detected, including a reference to the OWASP page that deals with the specific exploit.
Figure 8. The Paros report
Although scanners are a good way to find possible vulnerabilities in a Web site, the best security companies always test possible vulnerabilities by hand for false positives. Testing for these possible exploits means actually going to the areas of your site that were reported as vulnerable, inserting SQL code or a script into the site itself to see what the response is, and then going into the site itself and plugging any exploits. Large firms often hire professional programmers who specialize in this type of testing (called vulnerability validation), but as a developer, you can perform some of these tests yourself. Not only will doing so help you secure your site a bit more, but it will help you as you build future sites.
Using the Hacme Casino site again, let's look at the vulnerability that WebScarab found: an SQL injection exploit at the login. With Hacme Casino running, enter the SQL code that WebScarab used successfully—
‘) OR 1=1--—in the Login input area of the site. When you click Login, the account Andy_Aces is opened. Because
1=1 is going to be true, the most basic form of an SQL injection works here. As for Andy, he has the bad luck of being the first account in the database.
Just how did this work? In the back end, the database runs a query like this:
SELECT * FROM users WHERE (username=username AND password=password)
The bit of code injected through the Login box turned the valid query into this:
SELECT * FROM users WHERE (username=’’) OR 1=1—AND password=’’)
This query returns a successful login for the first user of the site, which is unfortunately Andy.
Of course, this example only scratches the surface of an SQL injection. As someone becomes more skilled in attacking Web sites, he or she can actually exploit this vulnerability to create users, change passwords, and extract sensitive data from the site. Protecting your site against these attacks involves taking a few steps:
- Use parameterized queries or stored procedures to access a database as opposed to using string concatenation. Parameterized queries require that you define all the SQL code and then pass in each parameter to the query later. This allows the database to distinguish between code and data, so it doesn't matter what type user input is supplied. Stored procedures are similar to parameterized queries in that they require you to define the SQL code first, then pass in the parameters later. These elements differ in that the SQL code for a stored procedure is defined and stored in the database itself, then called from the application.
- Sanitize user input by "whitelisting" the characters allowed. If you are asking for a name, only allow a-z and A-Z. For phone numbers, limit characters to 0-9. Use the appropriate validation technique supported by your database to do this.
- Escape user-supplied input using the character escaping scheme set up by your database. Escaping special characters tells your database that the characters provided in the query are in fact data, not code. If all user-supplied input is then escaped using the proper scheme, the database will not confuse that input with SQL code you have written.
- Don't give attackers any help. Make sure error messages don't give away information that can be later used against the site.
To demonstrate an example of an XSS attack, turn back to WebGoat. Start this site by clicking Cross Site Scripting > LAB: Cross Site Scripting > Stage 1: Stored XSS. Log in to the demo site—Goat Hills Financial—with a user name of
Larry Stooge and the password
larry. Now, an attacker would need to find somewhere to input a malicious script. The
Search Staff function probably has a text box where someone can enter a name: Click Search Staff to reveal it, as shown in Figure 9.
Figure 9. An XSS entry point
In the Name box, type
alert("You got me with XSS");. This script may only show an alert box like you see in Figure 10, but think about what could happen if the script could redirect a user to a fake human resources site where he or she had to enter a social security number, home address, bank information, and so on. Altering the action associated with the OK button can do this. For really creative malicious hackers, the sky is the limit if the user trusts them.
Figure 10. A successful XSS attack
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