Team, Visitors, External Collaborators
Overall Objectives
Research Program
Application Domains
Highlights of the Year
New Software and Platforms
New Results
Partnerships and Cooperations
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Section: New Results

Securing Clouds

Security monitoring in Cloud computing platforms

Participants : Clément Elbaz, Christine Morin, Louis Rilling, Amir Teshome Wonjiga.

In the INDIC project we aim at making security monitoring a dependable service for IaaS cloud customers. To this end, we study three topics:

The considered enforcement and verification mechanisms should have a minimal impact on performance.

In the past years we proposed a verification method for security monitoring SLOs  [37] and we have then studied a methodology to define security monitoring SLOs that are at the same time relevant for the tenant, achievable for the provider, and verifiable. The methodology is based on metrics benchmarks that a cloud service provider runs on a set of basic setups of an NIDS (Network Intrusion Detection), the basic setups covering together the variety of NIDS rules that may interest tenants. In order to make it achievable for a cloud service provider to run such benchmarks despite thousands of rules that could be chosen individually by tenants, we proposed a rule clustering strategy to lower the number of sets of rules that should be benchmarked and thus the number of benchmarks run. Finally we proposed extensions to an existing cloud SLA language to define security monitoring SLOs. These results were published in a technical report [27] as well as in Amir Teshome Wonjiga's thesis (to appear) and were submitted for publication in an international conference.

In a side project with Dr Sean Peisert at LBNL, the work on security SLO verification was extended to the use case of data integrity, where tenants outsource data to a cloud storage provider. This work allowed us to tackle a challenge in SLO verification because, in this use case as well as in the security monitoring use case, tenants cannot verify SLOs without a minimal trust in providers involvment in the verification process. We proposed a strategy based on blockchains that allows tenants as well as providers to do SLO verification without having to trust any individual entity. This work was published in the CIFS security workshop [22].

To make security monitoring SLOs adaptable to context changes like the evolution of threats and updates to the tenants' software, we have worked on automating the mitigation of new threats during the time window in which no intrusion detection rule exist and no security patch is applied yet (if available). This time winwow is critical because newly published vulnerabilities get exploited up to five orders of magnitude right after they are published and the time window may last several days or weeks. We have worked on a first step of mitigation, which consists in deciding if a newly published vulnerabiliy impacts a given information system. A major challenge in automating this step is that newly published vulnerabilities do not contain machine-readable data and this data only appears up to several weeks later. For this reason we designed and evaluated a keyword extraction process from the free-form text description of a vulnerability to map a given vulnerability to product names. This keyword exctraction process was first published at the RESSI French security conference [23] and will appear in the NOMS 2020 international conference. In future work this mapping should be combined with a knowledge base of the information system to automatically score the impact of a new vulnerability on the information system.

Our results were published in [27], [28], [22], [23], [25].

Privacy monitoring in Fog computing platforms

Participants : Mozhdeh Farhadi, Guillaume Pierre.

IoT devices are integrated in our daily lives, and as a result they often have access to lots of private information. For example many digital assistants (Alexa, Amazon Echo...) were shown to have violated the privacy policy they had established themselves. To increase the level of confidence that end users may have in these devices and the applications which process their data, we started designing monitoring mechanisms such that the fog or the cloud platform can certify whether an application actually follows its own privacy policy or not. A survey paper on security of fog computing platforms is under submission, and we expect another paper on privacy monitoring in 2020.