21,552 research outputs found
EviPlant: An efficient digital forensic challenge creation, manipulation and distribution solution
Education and training in digital forensics requires a variety of suitable
challenge corpora containing realistic features including regular
wear-and-tear, background noise, and the actual digital traces to be discovered
during investigation. Typically, the creation of these challenges requires
overly arduous effort on the part of the educator to ensure their viability.
Once created, the challenge image needs to be stored and distributed to a class
for practical training. This storage and distribution step requires significant
time and resources and may not even be possible in an online/distance learning
scenario due to the data sizes involved. As part of this paper, we introduce a
more capable methodology and system as an alternative to current approaches.
EviPlant is a system designed for the efficient creation, manipulation, storage
and distribution of challenges for digital forensics education and training.
The system relies on the initial distribution of base disk images, i.e., images
containing solely base operating systems. In order to create challenges for
students, educators can boot the base system, emulate the desired activity and
perform a "diffing" of resultant image and the base image. This diffing process
extracts the modified artefacts and associated metadata and stores them in an
"evidence package". Evidence packages can be created for different personae,
different wear-and-tear, different emulated crimes, etc., and multiple evidence
packages can be distributed to students and integrated into the base images. A
number of additional applications in digital forensic challenge creation for
tool testing and validation, proficiency testing, and malware analysis are also
discussed as a result of using EviPlant.Comment: Digital Forensic Research Workshop Europe 201
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Secure communication using dynamic VPN provisioning in an Inter-Cloud environment
Most of the current cloud computing platforms offer Infrastructure as a Service (IaaS) model, which aims to provision basic virtualised computing resources as on-demand and dynamic services. Nevertheless, a single cloud does not have limitless resources to offer to its users, hence the notion of an Inter-Cloud enviroment where a cloud can use the infrastructure resources of other clouds. However, there is no common framework in existence that allows the srevice owners to seamlessly provision even some basic services across multiple cloud service providers, albeit not due to any inherent incompatibility or proprietary nature of the foundation technologies on which these cloud platforms are built. In this paper we present a novel solution which aims to cover a gap in a subsection of this problem domain. Our solution offer a security architecture that enables service owners to provision a dynamic and service-oriented secure virtual private network on top of multiple cloud IaaS providers. It does this by leveraging the scalability, robustness and flexibility of peer- to-peer overlay techniques to eliminate the manual configuration, key management and peer churn problems encountered in setting up the secure communication channels dynamically, between different components of a typical service that is deployed on multiple clouds. We present the implementation details of our solution as well as experimental results carried out on two commercial clouds
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