4,549 research outputs found

    Ethical Hacking Using Penetration Testing

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    This thesis provides details of the hardware architecture and the software scripting, which are employed to demonstrate penetration testing in a laboratory setup. The architecture depicts an organizational computing asset or an environment.¬¬¬ With the increasing number of cyber-attacks throughout the world, the network security is becoming an important issue. This has motivated a large number of “ethical hackers” to indulge and develop methodologies and scripts to defend against the security attacks. As it is too onerous to maintain and monitor attacks on individual hardware and software in an organization, the demand for the new ways to manage security systems invoked the idea of penetration testing. Many research groups have designed algorithms depending on the size, type and purpose of application to secure networks [55]. In this thesis, we create a laboratory setup replicating an organizational infrastructure to study penetration testing on real time server-client atmosphere. To make this possible, we have used Border Gateway Protocol (BGP) as routing protocol as it is widely used in current networks. Moreover, BGP exhibits few vulnerabilities of its own and makes the security assessment more promising. Here, we propose (a) computer based attacks and (b) actual network based attacks including defense mechanisms. The thesis, thus, describes the way penetration testing is accomplished over a desired BGP network. The procedural generation of the packets, exploit, and payloads involve internal and external network attacks. In this thesis, we start with the details of all sub-fields in the stream of penetration testing, including their requirements and outcomes. As an informative and learning research, this thesis discusses the types of attacks over the routers, switches and physical client machines. Our work also deals with the limitations of the implementation of the penetration testing, discussing over the vulnerabilities of the current standards in the technology. Furthermore, we consider the possible methodologies that require attention in order to accomplish most efficient outcomes with the penetration testing. Overall, this work has provided a great learning opportunity in the area of ethical hacking using penetration testing

    Multifactor Authentication Key Management System based Security Model Using Effective Handover Tunnel with IPV6

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    In the current modern world, the way of life style is being completely changed due to the emerging technologies which are reflected in treating the patients too. As there is a tremendous growth in population, the existing e-Healthcare methods are not efficient enough to deal with numerous medical data. There is a delay in caring of patient health as communication networks are poor in quality and moreover smart medical resources are lacking and hence severe causes are experienced in the health of patient. However, authentication is considered as a major challenge ensuring that the illegal participants are not permitted to access the medical data present in cloud. To provide security, the authentication factors required are smart card, password and biometrics. Several approaches based on these are authentication factors are presented for e-Health clouds so far. But mostly serious security defects are experienced with these protocols and even the computation and communication overheads are high. Thus, keeping in mind all these challenges, a novel Multifactor Key management-based authentication by Tunnel IPv6 (MKMA- TIPv6) protocol is introduced for e-Health cloud which prevents main attacks like user anonymity, guessing offline password, impersonation, and stealing smart cards. From the analysis, it is proved that this protocol is effective than the existing ones such as Pair Hand (PH), Linear Combination Authentication Protocol (LCAP), Robust Elliptic Curve Cryptography-based Three factor Authentication (RECCTA) in terms storage cost, Encryption time, Decryption time, computation cost, energy consumption and speed. Hence, the proposed MKMA- TIPv6 achieves 35bits of storage cost, 60sec of encryption time, 50sec decryption time, 45sec computational cost, 50% of energy consumption and 80% speed

    Identity management in a public IaaS Cloud

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    In this thesis the unique environment that is the public IaaS cloud along with its differences from a traditional data center environment has been considered. The Cloud Security Alliance (CSA), states that “Managing identities and access control for enterprise applications remains one of the greatest challenges facing IT today”. The CSA also points out that “there is a lack of consistent secure methods for extending identity management into the cloud and across the cloud” [1]. This thesis examines this challenge of managing identities in the cloud by developing a list of best practices for implementing identity management in the cloud. These best practices were then tested by simulated misuse cases which were tested in a prototype of the implementation strategy. The results and analysis of the misuse cases show that the implementation of the identity management solution solves the problem of managing identities for the control of the infrastructure in the cloud. However, the analysis also shows that there are still areas where the properly implemented identity management solution fails to mitigate attacks to the infrastructure. These failures in particular are attacks that are sourced from the subscriber environments in the cloud. Finally, the best practices from this thesis also present some consistent methods for extending identity management into the cloud

    Expressive Policy-Based Access Control for Resource-Constrained Devices

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    Upcoming smart scenarios enabled by the Internet of Things envision smart objects that expose services that can adapt to user behavior or be managed with the goal of achieving higher productivity, often in multi-stakeholder applications. In such environments, smart things are cheap sensors (and actuators) and, therefore, constrained devices. However, they are also critical components because of the importance of the provided information. Therefore, strong security is a must. Nevertheless, existing feasible approaches do not cope well with the principle of least privilege; they lack both expressiveness and the ability to update the policy to be enforced in the sensors. In this paper, we propose an access control model that comprises a policy language that provides dynamic fine-grained policy enforcement in the sensors based on local context conditions. This dynamic policy cycle requires a secure, efficient, and traceable message exchange protocol. For that purpose, a security protocol called Hidra is also proposed. A security and performance evaluation demonstrates the feasibility and adequacy of the proposed protocol and access control model.This work was supported in part by the Training and Research Unit through UPV/EHU under Grant UFI11/16 and in part by the Department of Economic Development and Competitiveness of the Basque Government through the Security Technologies SEKUTEK Collaborative Research Projec
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