Muhammad Faraz Hyder scite author profile

Muhammad Faraz Hyder

5Publications

37Citation Statements Received

92Citation Statements Given

How they've been cited

How they cite others

109

Affiliations

NED University of Engineering and Technology

Publications

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Ransomware prevention using moving target defense based approach

Hyder

Khan

Arshad

et al. 2022

Concurrency and Computation

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Over the past decade, there has been a rapidly rising trend of malware (ransomware) that limits user access by encrypting the data and demanding the ransom against the decryption key. In most cases, such encryption may lead to a permanent data loss. In order to prevent this unwanted encryption, we propose a method based on Moving Target Defense (MTD) approach. Our method is based on the alteration of the attack surface to reduce the attack success ratio. We have used multiple layers of MTD. The first layer generates random extensions that hide the existing known file extensions. This will protect user files against those ransomware variants which encrypt files having some specific extensions. Our second layer of protection uses event-based MTD in which tasks are scheduled to change file extensions at the occurrence of specific events which mostly occur due to the execution of ransomware in the system. As a result of our proposed method, we have successfully protected user files against well-known ransomware variants such as WannaCry,

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Towards Crossfire Distributed Denial of Service Attack Protection Using Intent-Based Moving Target Defense Over Software-Defined Networking

Hyder

Fatima

2021

IEEE Access

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Crossfire is an indirect target area link-flooding Distributed Denial of Service (DDoS) attack determined to affect the neighbors of the real target. Currently, Crossfire DDoS attacks are acquiring impetus because of their indistinguishability and undetectability. SDN (Software Defined Networking) is a progressing technique because of its adaptability and programmability. Moving Target Defense (MTD) is an arising security strategy to counter the attacks by progressively changing the attacked plane. IBN (Intent-based Networking) is another promising methodology for providing dynamic network management. IBN-based MTD can provide efficient MTD solutions because of the concentrated control and observing capacities of the intents when translated into rules inside the SDN control plane. In this paper, a framework for the security of Crossfire DDoS attacks is proposed by making use of Intent-based Traffic modifications through Open Networking Operating System (ONOS) Rest API and Domain Name System (DNS) port redirection. In this paper, we exploited Intent-based MTD to divert the traffic from the principal host to the virtual shadow hosts to counter this attack. Traffic redirection helps in masquerading the attacker headed for shadow host and consequently getting the erroneous path towards network and hence, Crossfire attack couldn't be executed as expected. The proposed technique is simulated using Mininet and ONOS SDN controller. The outcomes showed traffic is successfully redirected at a low computational expense, therefore, Crossfire DDoS is efficiently mitigated as promising results are found.

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Securing Control and Data Planes From Reconnaissance Attacks Using Distributed Shadow Controllers, Reactive and Proactive Approaches

Hyder

Ismail

2021

IEEE Access

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Performance Comparison of Spark Clusters Configured Conventionally and a Cloud Service

Ahmed

Ismail

Hyder

et al. 2016

Procedia Computer Science

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INMTD: Intent-based Moving Target Defense Framework using Software Defined Networks

Hyder

Ismail

2020

Eng. Technol. Appl. Sci. Res.

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Intent-Based Networking (IBN) is an emerging networking paradigm while Moving Target Defense (MTD) is an active security technique. In this paper, the Intent-based Moving Target Defense (INMTD) framework using Software Defined Networks is proposed. INMTD is the first effort in exploiting IBN for the design of an efficient Moving Target Defense (MTD) framework. INMTD uses the concept of shadow servers in order to counter the first stage of cyber-attacks, i.e. reconnaissance attacks targeted against servers running in SDN networks. INMTD comprises of an MTD application running on an SDN controller. The MTD application has reconnaissance detection, MTD movement, and MTD monitoring modules. The MTD application is integrated with the intent-based northbound API of SDN controller. INMTD not only provides protection against probing attacks, but it also provides high availability due to shadow servers. The proposed framework was implemented using Mininet and ONOS SDN controller. The proposed framework was assessed in terms of defender cost, attacker’s effort, and introduced complexity in the system. The results substantiate the efficient protection against reconnaissance attacks at lower computational cost.

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