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Assessing the security benefits of defence in depth

Algaith, A. (2019). Assessing the security benefits of defence in depth. (Unpublished Doctoral thesis, City, University of London)

Abstract

Most modern computer systems are connected to the Internet. This brings many opportunities for revenue generation via e-commerce and information sharing, but also threats due to the exposure of these systems to malicious adversaries. Therefore, almost all organisations deploy security tools to improve overall detection capabilities. However, all security tools have limitations: they may fail to detect attacks, fail to uncover all vulnerabilities or generate alarms for non-malicious traffic or non-vulnerable code. Using terminology from signalling theory, we can state that security tools suffer from two types of failures: failure to correctly label a malicious event as malicious (False Negatives); and failure to correctly label a non-malicious event as non-malicious (False Positive). These failures may vary from one tool to another, since security tools are diverse in their weaknesses as well as their strengths. Therefore, an obvious design paradigm when deploying these defences is Diversity or Defence in Depth: the expectation is that employing multiple tools increases the chance of detecting malicious behaviour.

This thesis presents research to assess the benefits (or harm) from using diversity. This thesis begins with a literature review on defence in depth, diversity and fault tolerance while identifying areas for further research. This review is followed by the presentation of the overall methodology that we have used to perform the diversity assessment for three types of defence tools namely AntiVirus (AV) products, Intrusion Detection Systems (IDS) and Static Analysis Tools (SAT). The context of this project is inspired by the EPSRC D3S project in the Centre for Software Reliability (CSR) at the City, University of London as well as the previous work on diversity conducted at the same centre, but also elsewhere in the world. This thesis presents the results using the well-known metrics for binary classifiers: Sensitivity and Specificity; and assesses the various forms of adjudication that may be used: 1-out-of-N (1ooN – raise an alarm as long as ANY of the defences do so), N-out-of-N (NooN – raise an alarm only if ALL the defences do so), majority voting (raise an alarm where a MAJORITY of the defences do so) or optimal adjudication (raise an alarm in such a way that it minimises the overall loss to the system from a failure).

The first study compares the detection capabilities of nine different AV products. Additionally, for each vendor, the detection capabilities of the version of the product that is available for free in the VirusTotal platform are compared with the full capability version of that product that is available from the same vendor’s website. Counterintuitively, the free version of AVs from VirusTotal performed better (in most cases) than the commercial versions from the same vendor.

The second study compares the detection capabilities of IDS when deployed in a combined configuration. The functionally diverse combinations are shown to increase the true positive rate significantly while experiencing smaller increases in false positive rate.

The third study analyses the improvements and deteriorations of using diverse SATs to detect web vulnerabilities. The largest improvements in sensitivity, with the least deterioration in specificity was observed with the 1ooN configurations, in NooN configurations there is an improvement in specificity compared with individual systems, and there is a deterioration in sensitivity.

Finally, the benefits of “optimal adjudication” were also investigated: the result shows that the total loss that can result from the two types of failures considered (False Positives and False Negatives) can be significantly reduced with optimal adjudication configurations compared with more conventional methods of adjudication such as 1ooN, NooN or majority voting.

In conclusion, using diverse security protection tools is shown to be beneficial to improving the detection capability of three different families of products and optimal adjudication techniques can help balance the benefits of improved detection while lowering the false positive rates.

Publication Type: Thesis (Doctoral)
Subjects: Q Science > QA Mathematics > QA75 Electronic computers. Computer science
Q Science > QA Mathematics > QA76 Computer software
Departments: School of Mathematics, Computer Science & Engineering > Computer Science
URI: http://openaccess.city.ac.uk/id/eprint/21869
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