213 research outputs found

    TESTING DECEPTION WITH A COMMERCIAL TOOL SIMULATING CYBERSPACE

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    Deception methods have been applied to the traditional domains of war (air, land, sea, and space). In the newest domain of cyber, deception can be studied to see how it can be best used. Cyberspace operations are an essential warfighting domain within the Department of Defense (DOD). Many training exercises and courses have been developed to aid leadership with planning and to execute cyberspace effects that support operations. However, only a few simulations train cyber operators about how to respond to cyberspace threats. This work tested a commercial product from Soar Technologies (Soar Tech) that simulates conflict in cyberspace. The Cyberspace Course of Action Tool (CCAT) is a decision-support tool that evaluates defensive deception in a wargame simulating a local-area network being attacked. Results showed that defensive deception methods of decoys and bait could be effective in cyberspace. This could help military cyber defenses since their digital infrastructure is threatened daily with cyberattacks.Marine Forces Cyberspace CommandChief Petty Officer, United States NavyChief Petty Officer, United States NavyApproved for public release. Distribution is unlimited

    Agent-Based Modeling and Simulation of Network Infrastructure Cyber-Attacks and Cooperative Defense Mechanisms

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    Graphical & digital media application

    Имитационное моделирование механизмов защиты от бот-сетей.

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    To create effective mechanisms of protection against botnets, it is necessary to investigate the behavior of botnets and their impact on the operation of computer networks, as well as methods for botnet detection and counteraction to them. The paper investigates protection mechanisms against botnets, which are proliferated by worm propagation techniques and carry out DDoS attacks. As a toolkit to study of botnets and protect mechanisms we developed the simulation environment. The paper considers the architecture of the simulation environment implemented and a multitude of experiments which show ample opportunities of the developed simulation environment for research of botnets and protection mechanisms.Для создания эффективных механизмов защиты от бот-сетей необходимо исследовать поведение бот-сетей, их влияние на работу компьютерных сетей, а также методы детектирования бот-сетей и противодействия им. В данной статье исследуются механизмы защиты от бот-сетей, распространяющихся с помощью технологии компьютерных червей и выполняющих распределенные атаки типа «отказ в обслуживании». В качестве инструмента для исследования бот-сетей и механизмов защиты предлагается программно-инструментальная среда имитационного моделирования, разработанная авторами статьи. Описывается общая архитектура среды моделирования и представлены эксперименты, которые показывают возможности разработанной среды имитационного моделирования для исследования бот-сетей и механизмов защиты от них

    Teamwork in Cybersecurity: Evaluating the Cooperative Board Game [d0x3d!] as an Experimental Testbed

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    It is crucial to identify the knowledge, skills, and attitudes (KSAs) that contribute to success in cybersecurity teams. We introduce a board game, [d0x3d!], as an experimental testbed designed to create a controlled environment and set of manageable tasks aimed at exploring teamwork competencies that may be relevant to the cybersecurity workforce. [d0x3d!] requires players to work together and share information to retrieve stolen digital assets. The authors aim to improve the efficacy of cybersecurity team training by incorporating modern teamwork theory and measurement. This testbed provides a low-cost and user-friendly platform for training, evaluation, and research

    Automating Mitigation of Amplification Attacks in NFV Services

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    The combination of virtualization techniques with capillary computing and storage resources allows the instantiation of Virtual Network Functions throughout the network infrastructure, which brings more agility in the development and operation of network services. Beside forwarding and routing, this can be also used for additional functions, e.g., for security purposes. In this paper, we present a framework to systematically create security analytics for virtualized network services, specifically targeting the detection of cyber-attacks. Our framework largely automates the deployment of security sidecars into existing service templates and their interconnection to an external analytics platform. Notably, it leverages code augmentation techniques to dynamically inject and remove inspection probes without affecting service operation. We describe the implementation of a use case for the detection of DNS amplification attacks in virtualized 5G networks, and provide extensive evaluation of our innovative inspection and detection mechanisms. Our results demonstrate better efficiency with respect to existing network monitoring tools in terms of CPU usage, as well as good accuracy in detecting attacks even with variable traffic patterns

    DEFINING A CYBER OPERATIONS PERFORMANCE FRAMEWORK VIA COMPUTATIONAL MODELING

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    Cyber operations are influenced by a wide range of environmental characteristics, strategic policies, organizational procedures, complex networks, and the individuals who attack and defend these cyber battlegrounds. While no two cyber operations are identical, leveraging the power of computational modeling will enable decision-makers to understand and evaluate the effect of these influences prior to their impact on mission success. Given the complexity of these influences, this research proposes an agent-based modeling framework that will result in an operational performance dashboard for user analysis. To account for cyber team behavioral characteristics, this research includes the development and validation of the Cyber Operations Self-Efficacy Scales (COSES). The underlying statistics, algorithms, research instruments, and equations to support the overall framework are provided. This research represents the most comprehensive cyber operations agent-based performance analysis tools published to date

    Towards Protection Against Low-Rate Distributed Denial of Service Attacks in Platform-as-a-Service Cloud Services

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    Nowadays, the variety of technology to perform daily tasks is abundant and different business and people benefit from this diversity. The more technology evolves, more useful it gets and in contrast, they also become target for malicious users. Cloud Computing is one of the technologies that is being adopted by different companies worldwide throughout the years. Its popularity is essentially due to its characteristics and the way it delivers its services. This Cloud expansion also means that malicious users may try to exploit it, as the research studies presented throughout this work revealed. According to these studies, Denial of Service attack is a type of threat that is always trying to take advantage of Cloud Computing Services. Several companies moved or are moving their services to hosted environments provided by Cloud Service Providers and are using several applications based on those services. The literature on the subject, bring to attention that because of this Cloud adoption expansion, the use of applications increased. Therefore, DoS threats are aiming the Application Layer more and additionally, advanced variations are being used such as Low-Rate Distributed Denial of Service attacks. Some researches are being conducted specifically for the detection and mitigation of this kind of threat and the significant problem found within this DDoS variant, is the difficulty to differentiate malicious traffic from legitimate user traffic. The main goal of this attack is to exploit the communication aspect of the HTTP protocol, sending legitimate traffic with small changes to fill the requests of a server slowly, resulting in almost stopping the access of real users to the server resources during the attack. This kind of attack usually has a small time window duration but in order to be more efficient, it is used within infected computers creating a network of attackers, transforming into a Distributed attack. For this work, the idea to battle Low-Rate Distributed Denial of Service attacks, is to integrate different technologies inside an Hybrid Application where the main goal is to identify and separate malicious traffic from legitimate traffic. First, a study is done to observe the behavior of each type of Low-Rate attack in order to gather specific information related to their characteristics when the attack is executing in real-time. Then, using the Tshark filters, the collection of those packet information is done. The next step is to develop combinations of specific information obtained from the packet filtering and compare them. Finally, each packet is analyzed based on these combinations patterns. A log file is created to store the data gathered after the Entropy calculation in a friendly format. In order to test the efficiency of the application, a Cloud virtual infrastructure was built using OpenNebula Sandbox and Apache Web Server. Two tests were done against the infrastructure, the first test had the objective to verify the effectiveness of the tool proportionally against the Cloud environment created. Based on the results of this test, a second test was proposed to demonstrate how the Hybrid Application works against the attacks performed. The conclusion of the tests presented how the types of Slow-Rate DDoS can be disruptive and also exhibited promising results of the Hybrid Application performance against Low-Rate Distributed Denial of Service attacks. The Hybrid Application was successful in identify each type of Low-Rate DDoS, separate the traffic and generate few false positives in the process. The results are displayed in the form of parameters and graphs.Actualmente, a variedade de tecnologias que realizam tarefas diárias é abundante e diferentes empresas e pessoas se beneficiam desta diversidade. Quanto mais a tecnologia evolui, mais usual se torna, em contraposição, essas empresas acabam por se tornar alvo de actividades maliciosas. Computação na Nuvem é uma das tecnologias que vem sendo adoptada por empresas de diferentes segmentos ao redor do mundo durante anos. Sua popularidade se deve principalmente devido as suas características e a maneira com o qual entrega seus serviços ao cliente. Esta expansão da Computação na Nuvem também implica que usuários maliciosos podem tentar explorá-la, como revela estudos de pesquisas apresentados ao longo deste trabalho. De acordo também com estes estudos, Ataques de Negação de Serviço são um tipo de ameaça que sempre estão a tentar tirar vantagens dos serviços de Computação na Nuvem. Várias empresas moveram ou estão a mover seus serviços para ambientes hospedados fornecidos por provedores de Computação na Nuvem e estão a utilizar várias aplicações baseadas nestes serviços. A literatura existente sobre este tema chama atenção sobre o fato de que, por conta desta expansão na adopção à serviços na Nuvem, o uso de aplicações aumentou. Portanto, ameaças de Negação de Serviço estão visando mais a camada de aplicação e também, variações de ataques mais avançados estão sendo utilizadas como Negação de Serviço Distribuída de Baixa Taxa. Algumas pesquisas estão a ser feitas relacionadas especificamente para a detecção e mitigação deste tipo de ameaça e o maior problema encontrado nesta variante é diferenciar tráfego malicioso de tráfego legítimo. O objectivo principal desta ameaça é explorar a maneira como o protocolo HTTP trabalha, enviando tráfego legítimo com pequenas modificações para preencher as solicitações feitas a um servidor lentamente, tornando quase impossível para usuários legítimos aceder os recursos do servidor durante o ataque. Este tipo de ataque geralmente tem uma janela de tempo curta mas para obter melhor eficiência, o ataque é propagado utilizando computadores infectados, criando uma rede de ataque, transformando-se em um ataque distribuído. Para este trabalho, a ideia para combater Ataques de Negação de Serviço Distribuída de Baixa Taxa é integrar diferentes tecnologias dentro de uma Aplicação Híbrida com o objectivo principal de identificar e separar tráfego malicioso de tráfego legítimo. Primeiro, um estudo é feito para observar o comportamento de cada tipo de Ataque de Baixa Taxa, a fim de recolher informações específicas relacionadas às suas características quando o ataque é executado em tempo-real. Então, usando os filtros do programa Tshark, a obtenção destas informações é feita. O próximo passo é criar combinações das informações específicas obtidas dos pacotes e compará-las. Então finalmente, cada pacote é analisado baseado nos padrões de combinações feitos. Um arquivo de registo é criado ao fim para armazenar os dados recolhidos após o cálculo da Entropia em um formato amigável. A fim de testar a eficiência da Aplicação Híbrida, uma infra-estrutura Cloud virtual foi construída usando OpenNebula Sandbox e servidores Apache. Dois testes foram feitos contra a infra-estrutura, o primeiro teste teve o objectivo de verificar a efectividade da ferramenta proporcionalmente contra o ambiente de Nuvem criado. Baseado nos resultados deste teste, um segundo teste foi proposto para verificar o funcionamento da Aplicação Híbrida contra os ataques realizados. A conclusão dos testes mostrou como os tipos de Ataques de Negação de Serviço Distribuída de Baixa Taxa podem ser disruptivos e também revelou resultados promissores relacionados ao desempenho da Aplicação Híbrida contra esta ameaça. A Aplicação Híbrida obteve sucesso ao identificar cada tipo de Ataque de Negação de Serviço Distribuída de Baixa Taxa, em separar o tráfego e gerou poucos falsos positivos durante o processo. Os resultados são exibidos em forma de parâmetros e grafos
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