Risk
6/25/2010
03:50 PM
50%
50%

Tech Insight: Three Steps To Better Database Security

Protecting your most sensitive data could involve discovery and auditing, as well as security

If you were a cybercriminal attacking your organization, which data would you target first? In most enterprises, the most voluminous, valuable, and marketable data is found in one common app: the database.

Of course, there are millions of database out there, and most attackers aren't too choosy. They'll go after the ones that are the least secure. How fast do you have to be when a bear is chasing you? Faster than the guy running next to you. Keeping your database secure means taking three basic steps to ensure yours isn't the slow-footed one.

The first hurdle is finding the database servers themselves. The most common place to find them is in the data center, where they're more likely to be documented -- and, hopefully, secured. But database servers can show up in other parts of the enterprise, including research and development labs, test environments, and embedded systems.

Finding those database servers and enumerating the information they store is the first step in developing a strategy for managing risk and securing your most sensitive data. It's not uncommon for test environments to mirror production servers -- to the point of storing the same sensitive information. R&D will often set up servers without any help or knowledge from IT, so it's not uncommon to find servers there that contain sensitive research.

A good example of embedded systems gone bad is Shawn Merdinger's presentation, "We Don't Need No Stinking Badges," (PDF and video) which describes electronic door access control systems (EDAC) and several vulnerabilities he discovered in S2 Security's NetBox. The NetBox includes an extremely old version of MySQL listening on its default port -- and contains "everything from reports to user information, customized features, facility diagrams, and more."

Once you've discovered the sensitive database servers, step two is to lock them down. There are three key elements to this step: firewalls, patching, and Web applications. Database servers do not need to be accessible by every workstation in the company. There could be exceptions, but it's unlikely. Take the time to properly firewall the database server to allow it only to communicate with necessary systems. And remember defense in-depth -- apply rules at the network, host, and application level.

Properly restricting access to the database server will certainly reduce the attack surface, but it does not negate the need to patch. There have been many studies that indicate database administrators do not patch their systems regularly. In security, it's better to be a secure exception to the rule than be vulnerable to a threat that was patched months ago. Set up a test environment, patch it, confirm that it works -- and then patch the production environment.

Web applications bring a whole new dimension to the database security problem. The need to put data online --and support it with a database back end -- has caused the exposure of millions and millions of sensitive records. SQL injection was the top application security risk in the recent OWASP Top 10 for 2010 -- and with good reason. An SQL injection attack can allow an attacker to read, modify, and delete data from a database using nothing more than a Web browser.

If your Web applications are backed by databases, then you need to implement secure coding within your development life cycle and perform vulnerability assessments of your Web apps any time new code is introduced.

New attacks and vulnerabilities are being exposed every day. New tools are being developed regularly, too, such as Poet, which was released recently at Black Hat Europe. Take the time to secure your Web apps before you become a statistic in the next breach report.

Last, but certainly not least, turn on your auditing capabilities. Many enterprises disable these capabilities in an effort to improve database server performance. If performance is a major concern for your organization, then consider a database activity monitoring solution that will provide you with auditing and much more. Turning auditing off will make it harder to investigate possible breaches -- and could impact your compliance efforts.

Ultimately, database security -- like all security -- is about risk mitigation, not elimination. You can't eliminate all of the risks, but you can reduce them to a level that works for you and your organization.

Have a comment on this story? Please click "Discuss" below. If you'd like to contact Dark Reading's editors directly, send us a message.

Comment  | 
Print  | 
More Insights
Register for Dark Reading Newsletters
White Papers
Cartoon
Current Issue
Flash Poll
Video
Slideshows
Twitter Feed
Dark Reading - Bug Report
Bug Report
Enterprise Vulnerabilities
From DHS/US-CERT's National Vulnerability Database
CVE-2013-2184
Published: 2015-03-27
Movable Type before 5.2.6 does not properly use the Storable::thaw function, which allows remote attackers to execute arbitrary code via the comment_state parameter.

CVE-2014-3619
Published: 2015-03-27
The __socket_proto_state_machine function in GlusterFS 3.5 allows remote attackers to cause a denial of service (infinite loop) via a "00000000" fragment header.

CVE-2014-8121
Published: 2015-03-27
DB_LOOKUP in nss_files/files-XXX.c in the Name Service Switch (NSS) in GNU C Library (aka glibc or libc6) 2.21 and earlier does not properly check if a file is open, which allows remote attackers to cause a denial of service (infinite loop) by performing a look-up while the database is iterated over...

CVE-2014-9712
Published: 2015-03-27
Websense TRITON V-Series appliances before 7.8.3 Hotfix 03 and 7.8.4 before Hotfix 01 allows remote administrators to read arbitrary files and obtain passwords via a crafted path.

CVE-2015-0658
Published: 2015-03-27
The DHCP implementation in the PowerOn Auto Provisioning (POAP) feature in Cisco NX-OS does not properly restrict the initialization process, which allows remote attackers to execute arbitrary commands as root by sending crafted response packets on the local network, aka Bug ID CSCur14589.

Dark Reading Radio
Archived Dark Reading Radio
Good hackers--aka security researchers--are worried about the possible legal and professional ramifications of President Obama's new proposed crackdown on cyber criminals.