Protecting the Network - Improving physical security with operations’ team help

Protecting the Network

Improving physical security with operations’ team help

For many years, physical and network security existed as separate disciplines, each managed by an independent operations team on its own side of the house with little or no crossover between the two. Today, the two are so closely intertwined that the separation of physical and network security is no longer thinkable. Rather, both sides—if, indeed, they do not already operate under the same umbrella—must work closely together, collaborating on tactics to combat attacks and protect an organization from rapidly-growing risks including workplace violence, fraud, cyberattacks and insider threat.

Discovering potential threats and taking action to prevent breaches from happening requires a high level of security intelligence along with technology created specifically for analyzing activities across the enterprise. The aggregated data from diverse physical security and logical/IT systems delivers the intelligence needed to understand anomalous behaviors. It stands to reason that this need, combined with the increasingly close relationship between the two, creates a situation where protecting the network also increases physical security.

With every high-profile data breach comes a greater focus on network security, mainly from a logical perspective. However, these breaches are not always the work of faceless remote attackers on the other side of the world. In many cases, they come from the inside. For example, a disgruntled employee could trigger a massive breach simply by plugging a thumb drive into a USB port. Likewise, contractors or others who are given physical access to network-connected assets introduce additional threats, which might be the result of malicious activity but could also be caused by individuals’ lack of awareness of physical and/or network security policies. While this contributes to the strong link between on-site physical security presence and protecting the network, enterprises don’t always dedicate adequate resources to focusing on this link.

The risk of insider threat is growing and has taken on greater significance in enterprises’ security practices, driven by a shift in how employment in general is viewed. Employees tend to remain in a job for shorter periods of time than in the past, resulting in lower levels of loyalty and commitment. Also contributing to this threat is companies’ increasing reliance on more remote, virtual, contract and temporary employees, who may have access to both physical assets and systems.

The evolving insider threat landscape makes it vital for enterprises to consider their own potential for insider threats, including who might be most likely to commit these types of crimes, potential costs and how threats can be mitigated. One primary strategy for protection is to widen their perspective. Rather than looking at breaches as discrete, isolated events, these should be recognized as culminating events that stem from a pattern of activity across several systems. This requires expanding the data sources enterprises use from solely IT- or facilities- based systems to include other data sources within the enterprise.

This has been difficult in the past, both because of the challenges enterprises have faced in simply collecting data from disparate sources and because of the limits in analyzing this data to improve security policies and practices. Today, the intelligence of the tools available for identifying threats is growing. Whereas in the past enterprises would likely settle for focusing on a single data set such as access logs, today they can incorporate other data sources, significantly expanding their options for better insights.

Predictive analysis solutions generate the intelligence necessary to accomplish this goal, correlating information from multiple sources and translating that data into action on an ongoing basis. This allows security to transition from being a mainly reactive resource to a more proactive function.

The human resources database is a key source of information, including titles, roles and responsibilities; associated levels of access to data; and the results of any background checks performed on prospective employees or candidates. Employees in finance, engineering and IT departments have greater access to critical or sensitive data, and this access could potentially be used to do more harm than other employees could.

The HR database contains records of events that might presage employees’ becoming a higher-level insider threat. These “triggering events” could include negative feedback, a bad performance review, poor scores on a performance improvement plan, and any infractions or complaints. Other red flags might be changes in family status, such as marriage, divorce or the birth of a child, all of which represent potential changes in financial status that could make employees susceptible to temptation. A long period of time since an employee last took a vacation could be another indicator, as people in financial difficulty often don’t take vacations, while insider threat candidates may also remain on the job to try to make sure no one is monitoring their activities.

Mechanisms for correlating HR information with other enterprise systems, such as those tracking physical access, provide the widest perspective on threat and risk. For instance, a traditionally 9-to-5 employee who attempts to enter a building in the middle of the night or someone starting to regularly frequent a building where they have no responsibilities would be suspicious. At the same time, enterprises should be able to correlate data from access systems with calendaring systems. An entire team coming in at an odd hour may be preparing for a business trip, an upcoming conference or a teleconference with a global client; a single employee doing so is more suspicious. All of this information, when shared across the network, determines who might be most at risk of compromising an enterprise via insider threat.

But understanding who to track among permanent and temporary employees, and how to track them, is only the beginning. There are a number of approaches that must be followed to enable an enterprise to be highly efficient at identifying potential insider threats before they become a reality.

The first, as noted earlier, is the need for a system that connects each of the appropriate data sources: human resources databases, physical security systems and IT logs. The system must be highly flexible, easily integrated and unfailingly accurate. After that, an enterprise must set up a monitoring system that reviews information aggregated from those sources, such as job titles, triggering events, changes in physical and system access patterns and behavioral changes. By establishing a baseline of behavior, enterprises can create profiles and risk scores associated with all levels of employees—permanent, parttime, contractor, virtual.

The next step is to establish a high-risk score and identify employees who fall into that range. This provides enterprises the ability to focus on only the highest-risk roles; after all, it’s simply not feasible for an enterprise to track everyone who uses the printers or the photocopiers. Anyone in those roles—or applying for those roles— should be subject to initial as well as periodic background checks. By identifying high-risk employees, enterprises are able to focus their efforts on only the most likely individuals, allowing them to take proactive steps to review access, segregate roles to eliminate conflict or schedule more-frequent (or more-detailed) audits and reviews.

Context is the overarching theme behind all of these efforts. Data points alone represent an incomplete approach to insider threat. Without the context of other events, behaviors or attributes, this data is useless, and those enterprises that rely simply on patterns run the risk of diminishing morale and/or unnecessarily creating a culture of suspicion.

Bringing these data points together enables enterprises to create the equivalent of a “watch list” that can be used for permanent employees as well as other categories. For instance, the system may track contractors’ employees for safety and security violations. If they decrease, there’s no harm done. If they increase, the enterprise can engage in remediation such as retraining, limiting access, requiring an escort or reporting the violations to a manager.

It is important to note that while the data from these integrated systems is invaluable, as with many other technological solutions it is the most effective when combined with personal instincts. The system readily provides aggregated data that wasn’t available previously, but—especially in a world where quality talent is frequently hard to come by—it can’t account for human knowledge and insight. No software can yet distinguish between inappropriate and merely unusual behavior.

The network plays an integral role in predictive analysis and proactive security itself. Not only does it form the backbone upon which information and data is shared, collected and analyzed, but by using IT logging systems, enterprises can track data sources for unusual patterns, such as employees using photocopiers, printers or USB drives more frequently than in the past, which may indicate unauthorized collection of information. The use of external data sharing sites like Dropbox increases this possibility. Viewed together, all of these activities may be indicative of insider threat in the form of misappropriation of data.

Therefore, given the role the network plays and the importance of data to accurate predictive analysis and increased physical security, ensuring the integrity and availability of that data is paramount, which is why network security is such a critical component of physical security. Without good data, insider threats and other risks cannot be properly identified, eliminating the potential for proactive security measures. As a result of the close relationship between information and physical security, protecting the network not only decreases the potential for remote data breaches but also contributes to stronger physical security for enterprises.

This article originally appeared in the February 2016 issue of Security Today.

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