8,560 research outputs found
Sharing Computer Network Logs for Security and Privacy: A Motivation for New Methodologies of Anonymization
Logs are one of the most fundamental resources to any security professional.
It is widely recognized by the government and industry that it is both
beneficial and desirable to share logs for the purpose of security research.
However, the sharing is not happening or not to the degree or magnitude that is
desired. Organizations are reluctant to share logs because of the risk of
exposing sensitive information to potential attackers. We believe this
reluctance remains high because current anonymization techniques are weak and
one-size-fits-all--or better put, one size tries to fit all. We must develop
standards and make anonymization available at varying levels, striking a
balance between privacy and utility. Organizations have different needs and
trust other organizations to different degrees. They must be able to map
multiple anonymization levels with defined risks to the trust levels they share
with (would-be) receivers. It is not until there are industry standards for
multiple levels of anonymization that we will be able to move forward and
achieve the goal of widespread sharing of logs for security researchers.Comment: 17 pages, 1 figur
FLAIM: A Multi-level Anonymization Framework for Computer and Network Logs
FLAIM (Framework for Log Anonymization and Information Management) addresses
two important needs not well addressed by current log anonymizers. First, it is
extremely modular and not tied to the specific log being anonymized. Second, it
supports multi-level anonymization, allowing system administrators to make
fine-grained trade-offs between information loss and privacy/security concerns.
In this paper, we examine anonymization solutions to date and note the above
limitations in each. We further describe how FLAIM addresses these problems,
and we describe FLAIM's architecture and features in detail.Comment: 16 pages, 4 figures, in submission to USENIX Lis
TRIDEnT: Building Decentralized Incentives for Collaborative Security
Sophisticated mass attacks, especially when exploiting zero-day
vulnerabilities, have the potential to cause destructive damage to
organizations and critical infrastructure. To timely detect and contain such
attacks, collaboration among the defenders is critical. By correlating
real-time detection information (alerts) from multiple sources (collaborative
intrusion detection), defenders can detect attacks and take the appropriate
defensive measures in time. However, although the technical tools to facilitate
collaboration exist, real-world adoption of such collaborative security
mechanisms is still underwhelming. This is largely due to a lack of trust and
participation incentives for companies and organizations. This paper proposes
TRIDEnT, a novel collaborative platform that aims to enable and incentivize
parties to exchange network alert data, thus increasing their overall detection
capabilities. TRIDEnT allows parties that may be in a competitive relationship,
to selectively advertise, sell and acquire security alerts in the form of
(near) real-time peer-to-peer streams. To validate the basic principles behind
TRIDEnT, we present an intuitive game-theoretic model of alert sharing, that is
of independent interest, and show that collaboration is bound to take place
infinitely often. Furthermore, to demonstrate the feasibility of our approach,
we instantiate our design in a decentralized manner using Ethereum smart
contracts and provide a fully functional prototype.Comment: 28 page
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