9,071 research outputs found
Structure Refinement for Vulnerability Estimation Models using Genetic Algorithm Based Model Generators
In this paper, a method for model structure refinement is proposed and applied in estimation of cumulative number of vulnerabilities according to time. Security as a quality characteristic is presented and defined. Vulnerabilities are defined and their importance is assessed. Existing models used for number of vulnerabilities estimation are enumerated, inspecting their structure. The principles of genetic model generators are inspected. Model structure refinement is defined in comparison with model refinement and a method for model structure refinement is proposed. A case study shows how the method is applied and the obtained results.model structure refinement, model generators, gene expression programming, software vulnerabilities, performance criteria, software metrics
ATTACK2VEC: Leveraging Temporal Word Embeddings to Understand the Evolution of Cyberattacks
Despite the fact that cyberattacks are constantly growing in complexity, the
research community still lacks effective tools to easily monitor and understand
them. In particular, there is a need for techniques that are able to not only
track how prominently certain malicious actions, such as the exploitation of
specific vulnerabilities, are exploited in the wild, but also (and more
importantly) how these malicious actions factor in as attack steps in more
complex cyberattacks. In this paper we present ATTACK2VEC, a system that uses
temporal word embeddings to model how attack steps are exploited in the wild,
and track how they evolve. We test ATTACK2VEC on a dataset of billions of
security events collected from the customers of a commercial Intrusion
Prevention System over a period of two years, and show that our approach is
effective in monitoring the emergence of new attack strategies in the wild and
in flagging which attack steps are often used together by attackers (e.g.,
vulnerabilities that are frequently exploited together). ATTACK2VEC provides a
useful tool for researchers and practitioners to better understand cyberattacks
and their evolution, and use this knowledge to improve situational awareness
and develop proactive defenses
Attack2vec: Leveraging temporal word embeddings to understand the evolution of cyberattacks
Despite the fact that cyberattacks are constantly growing in complexity, the research community still lacks effective tools to easily monitor and understand them. In particular, there is a need for techniques that are able to not only track how prominently certain malicious actions, such as the exploitation of specific vulnerabilities, are exploited in the wild, but also (and more importantly) how these malicious actions factor in as attack steps in more complex cyberattacks. In this paper we present ATTACK2VEC, a system that uses temporal word embeddings to model how attack steps are exploited in the wild, and track how they evolve. We test ATTACK2VEC on a dataset
of billions of security events collected from the customers of a commercial Intrusion Prevention System over a period of two years, and show that our approach is effective in monitoring the emergence of new attack strategies in the wild and in flagging which attack steps are often used together by attackers (e.g., vulnerabilities that are frequently exploited together). ATTACK2VEC provides a useful tool for researchers and practitioners to better
understand cyberattacks and their evolution, and use this knowledge to improve situational awareness and develop proactive defenses.Accepted manuscrip
Talos: Neutralizing Vulnerabilities with Security Workarounds for Rapid Response
Considerable delays often exist between the discovery of a vulnerability and
the issue of a patch. One way to mitigate this window of vulnerability is to
use a configuration workaround, which prevents the vulnerable code from being
executed at the cost of some lost functionality -- but only if one is
available. Since program configurations are not specifically designed to
mitigate software vulnerabilities, we find that they only cover 25.2% of
vulnerabilities.
To minimize patch delay vulnerabilities and address the limitations of
configuration workarounds, we propose Security Workarounds for Rapid Response
(SWRRs), which are designed to neutralize security vulnerabilities in a timely,
secure, and unobtrusive manner. Similar to configuration workarounds, SWRRs
neutralize vulnerabilities by preventing vulnerable code from being executed at
the cost of some lost functionality. However, the key difference is that SWRRs
use existing error-handling code within programs, which enables them to be
mechanically inserted with minimal knowledge of the program and minimal
developer effort. This allows SWRRs to achieve high coverage while still being
fast and easy to deploy.
We have designed and implemented Talos, a system that mechanically
instruments SWRRs into a given program, and evaluate it on five popular Linux
server programs. We run exploits against 11 real-world software vulnerabilities
and show that SWRRs neutralize the vulnerabilities in all cases. Quantitative
measurements on 320 SWRRs indicate that SWRRs instrumented by Talos can
neutralize 75.1% of all potential vulnerabilities and incur a loss of
functionality similar to configuration workarounds in 71.3% of those cases. Our
overall conclusion is that automatically generated SWRRs can safely mitigate
2.1x more vulnerabilities, while only incurring a loss of functionality
comparable to that of traditional configuration workarounds.Comment: Published in Proceedings of the 37th IEEE Symposium on Security and
Privacy (Oakland 2016
The Challenges in SDN/ML Based Network Security : A Survey
Machine Learning is gaining popularity in the network security domain as many
more network-enabled devices get connected, as malicious activities become
stealthier, and as new technologies like Software Defined Networking (SDN)
emerge. Sitting at the application layer and communicating with the control
layer, machine learning based SDN security models exercise a huge influence on
the routing/switching of the entire SDN. Compromising the models is
consequently a very desirable goal. Previous surveys have been done on either
adversarial machine learning or the general vulnerabilities of SDNs but not
both. Through examination of the latest ML-based SDN security applications and
a good look at ML/SDN specific vulnerabilities accompanied by common attack
methods on ML, this paper serves as a unique survey, making a case for more
secure development processes of ML-based SDN security applications.Comment: 8 pages. arXiv admin note: substantial text overlap with
arXiv:1705.0056
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