60 research outputs found

    New Approaches to Mitigation of Malicious Traffic in VoIP Networks

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    Voice over IP (VoIP) telephony is becoming widespread in use, and is often integrated into computer networks. Because of this, malicious software threatens VoIP systems in the same way that traditional computer systems have been attacked by viruses, worms, and other automated agents. VoIP networks are a challenge to secure against such malware as much of the network intelligence is focused on the edge devices and access environment. This paper describes the design and implementation of a novel VoIP security architecture in which evaluation of, and mitigation against, malicious traffic is demonstrated by the use of virtual machines to emulate vulnerable clients and servers through the use of apparent attack vectors. This new architecture, which is part of an ongoing research project, establishes interaction between the VoIP backend and the end users, thus providing information about ongoing and unknown attacks to users

    A survey of defense mechanisms against distributed denial of service (DDOS) flooding attacks

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    Distributed Denial of Service (DDoS) flooding attacks are one of the biggest concerns for security professionals. DDoS flooding attacks are typically explicit attempts to disrupt legitimate users' access to services. Attackers usually gain access to a large number of computers by exploiting their vulnerabilities to set up attack armies (i.e., Botnets). Once an attack army has been set up, an attacker can invoke a coordinated, large-scale attack against one or more targets. Developing a comprehensive defense mechanism against identified and anticipated DDoS flooding attacks is a desired goal of the intrusion detection and prevention research community. However, the development of such a mechanism requires a comprehensive understanding of the problem and the techniques that have been used thus far in preventing, detecting, and responding to various DDoS flooding attacks. In this paper, we explore the scope of the DDoS flooding attack problem and attempts to combat it. We categorize the DDoS flooding attacks and classify existing countermeasures based on where and when they prevent, detect, and respond to the DDoS flooding attacks. Moreover, we highlight the need for a comprehensive distributed and collaborative defense approach. Our primary intention for this work is to stimulate the research community into developing creative, effective, efficient, and comprehensive prevention, detection, and response mechanisms that address the DDoS flooding problem before, during and after an actual attack. © 1998-2012 IEEE

    A Novel Design and Implementation of Dos-Resistant Authentication and Seamless Handoff Scheme for Enterprise WLANs

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    With the advance of wireless access technologies, the IEEE 802.11 wireless local area network (WLAN) has gained significant increase in popularity and deployment due to the substantially improved transmission rate and decreased deployment costs. However, this same widespread deployment makes WLANs an attractive target for network attacks. Several vulnerabilities have been identified and reported regarding the security of the current 802.11 standards. To address those security weaknesses, IEEE standard committees proposed the 802.11i amendment to enhance WLAN security. The 802.11i standard has demonstrated the capability of providing satisfactory mutual authentication, better data confidentiality, and key management support, however, the design of 802.11i does not consider network availability. Thus 802.11i is highly susceptible to malicious denial-of-service (DoS) attacks, which exploit the vulnerability of unprotected management frames. This paper proposes, tests and evaluates a combination of three novel methods by which the exploitation of 802.11i by DoS attacks can be improved. These three methods include an access point nonce dialogue scheme, a fast access point transition protocol handoff scheme and a location management based selective scanning scheme. This combination is of particular value to real-time users running time-dependant applications such as VoIP. In order to acquire practical data to evaluate the proposed schemes, a prototype network has been implemented as an experimental testbed using open source tools and drivers. This testbed allows practical data to be collected and analysed. The result demonstrates that not only the proposed authentication scheme eradicates most of the DoS vulnerabilities, but also substantially improved the handoff performance to a level suitable for supporting real-time services

    Securing the Edges of IoT Networks: a Scalable SIP DDoS Defense Framework with VNF, SDN, and Blockchain

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    An unintended consequence of the global deployment of IoT devices is that they provide a fertile breeding ground for IoT botnets. An adversary can take advantage of an IoT botnet to launch DDoS attacks against telecommunication services. Due to the magnitude of such an attack, legacy security systems are not able to provide adequate protection. The impact ranges from loss of revenue for businesses to endangering public safety. This risk has prompted academia, government, and industry to reevaluate the existing de- fence model. The current model relies on point solutions and the assumption that adversaries and their attacks are readily identifiable. But adversaries have challenged this assumption, building a botnet from thousands of hijacked IoT devices to launch DDoS attacks. With bot- net DDoS attacks there are no clear boundary where the attacks originate and what defensive measures to use. The research question is: in what ways programmable networks could defend against Session Initiation Protocol (SIP) Distributed Denial-of-Service (DDoS) flooding attacks from IoT botnets? My significant and original contribution to the knowledge is a scalable and collaborative defence framework that secures the edges of IoT networks with Virtual Network Function (VNF), Software-Defined Networking (SDN), and Blockchain technology to prevent, detect, and mitigate SIP DDoS flooding attacks from IoT botnets. Successful experiments were performed using VNF, SDN, and Blockchain. Three kinds of SIP attacks (scan, brute force, and DDoS) were launched against a VNF running on a virtual switch and each was successfully detected and mitigated. The SDN controller gathers threat intelligence from the switch where the attacks originate and installs them as packet filtering rules on all switches in the organisation. With the switches synchronised, the same botnet outbreak is prevented from attacking other parts of the organisation. A distributed application scales this framework further by writing the threat intelligence to a smart contract on the Ethereum Blockchain so that it is available for external organisations. The receiving organisation retrieves the threat intelligence from the smart contract and installs them as packet filtering rules on their switches. In this collaborative framework, attack detection/mitigation efforts by one organisation can be leveraged as attack prevention efforts by other organisations in the community

    Secure Service Provisioning (SSP) Framework for IP Multimedia Subsystem (IMS)

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    Mit dem Erscheinen mobiler Multimediadienste, wie z. B. Unified Messaging, Click-to-Dial-Applikationen, netzwerkĂŒbergeifende Multimedia-Konferenzen und nahtlose Multimedia-Streming-Dienste, begann die Konvergenz von mobilen Kommunikationsetzen und Festnetzen, begleitet von der Integration von Sprach- und Datenkommunikations-Übertragungstechnik Diese Entwicklungen bilden die Voraussetzung fĂŒr die Verschmelzung des modernen Internet auf der einen Seite mit der Telekommunikation im klassischen Sinne auf der anderen. Das IP Multimedia-Subsystem (IMS) darf hierbei als die entscheidende Next-Generation-Service-Delivery-Plattform in einer vereinheitlichten Kommunikationswelt angesehen werden. Seine Architektur basiert auf einem modularen Design mit offenen Schnittstellen und bietet dedizierte Voraussetzungen zur UnterstĂŒtzung von Multimedia-Diensten auf der Grundlage der Internet-Protokolle. Einhergehend mit dieser aufkommenden offenen Technologie stellen sich neue Sicherheits-Herausforderungen in einer vielschichtigen Kommunikationsinfrastruktur, im Wesentlichen bestehend aus dem Internet Protokoll (IP), dem SIP-Protokoll (Session Initiation Protocol) und dem Real-time Transport Protokoll (RTP). Die Zielsetzung des Secure Service Provisioning-Systems (SSP) ist, mögliche Angriffsszenarien und SicherheitslĂŒcken in Verbindung mit dem IP Multimedia Subsystem zu erforschen und Sicherheitslösungen, wie sie von IETF, 3GPP und TISPAN vorgeschlagen werden, zu evaluieren. Im Rahmen dieser Forschungsarbeit werden die Lösungen als Teil des SSP-Systems berĂŒcksichtigt, mit dem Ziel, dem IMS und der Next-Generation-SDP einen hinreichenden Schutz zu garantieren. Dieser Teil, der als Sicherheitsschutzstufe 1 bezeichnet wird, beinhaltet unter anderem Maßnahmen zur Nutzer- und Netzwerk-Authentifizierung, die Autorisierung der Nutzung von Multimediadiensten und Vorkehrungen zur GewĂ€hrleistung der Geheimhaltung und IntegritĂ€t von Daten im Zusammenhang mit dem Schutz vor Lauschangriffen, Session-Hijacking- und Man-in-the-Middle-Angriffen. Im nĂ€chsten Schritt werden die BeschrĂ€nkungen untersucht, die fĂŒr die Sicherheitsschutzstufe 1 charakteristisch sind und Maßnahmen zu Verbesserung des Sicherheitsschutzes entwickelt. Die entsprechenden Erweiterungen der Sicherheitsschutzstufe 1 fĂŒhren zu einem Intrusion Detection and Prevention-System (IDP), das Schutz vor Denial-of-Service- (DoS) / Distributed-Denial-of-Service (DDoS)-Angriffen, missbrĂ€uchlicher Nutzung und TĂ€uschungsversuchen in IMS-basierten Netzwerken bietet. Weder 3GPP noch TISPAN haben bisher Lösungen fĂŒr diesen Bereich spezifiziert. In diesem Zusammenhang können die beschriebenen Forschungs- und Entwicklungsarbeiten einen Beitrag zur Standardisierung von Lösungen zum Schutz vor DoS- und DDoS-Angriffen in IMS-Netzwerken leisten. Der hier beschriebene Ansatz basiert auf der Entwicklung eines (stateful / stateless) Systems zur Erkennung und Verhinderung von Einbruchsversuchen (Intrusion Detection and Prevention System). Aus Entwicklungssicht wurde das IDP in zwei Module aufgeteilt: Das erste Modul beinhaltet die Basisfunktionen des IDP, die sich auf Flooding-Angriffe auf das IMS und ihre Kompensation richten. Ihr Ziel ist es, das IMS-Core-Netzwerk und die IMS-Ressourcen vor DoS- und DDoS-Angriffen zu schĂŒtzen. Das entsprechende Modul basiert auf einer Online Stateless-Detection-Methodologie und wird aktiv, sobald die CPU-Auslastung der P-CSCF (Proxy-Call State Control Function) einen vordefinierten Grenzwert erreicht oder ĂŒberschreitet. Das zweite Modul (IDP-AS) hat die Aufgabe, Angriffe, die sich gegen IMS Application Server (AS) richten abzufangen. Hierbei konzentrieren sich die Maßnahmen auf den Schutz des ISC-Interfaces zwischen IMS Core und Application Servern. Das betreffende Modul realisiert eine Stateful Detection Methodologie zur Erkennung missbrĂ€uchlicher NutzungsaktivitĂ€ten. WĂ€hrend der Nutzer mit dem Application Server kommuniziert, werden dabei nutzerspezifische Zustandsdaten aufgezeichnet, die zur PrĂŒfung der LegitimitĂ€t herangezogen werden. Das IDP-AS prĂŒft alle eingehenden Requests und alle abgehenden Responses, die von IMS Application Servern stammen oder die an IMS Application Server gerichtet sind, auf ihre ZulĂ€ssigkeit im Hinblick auf die definierten Attack Rules. Mit Hilfe der Kriterien Fehlerfreiheit und Processing Delay bei der Identifikation potenzieller Angriffe wird die LeistungsfĂ€higkeit der IDP-Module bewertet. FĂŒr die entsprechenden Referenzwerte werden hierbei die ZustĂ€nde Nomallast und Überlast verglichen. Falls die LeistungsfĂ€higkeit des IDP nicht unter den Erwartungen zurĂŒckbleibt, wird ein IDP-Prototyp zur Evaluation im Open IMS Playground des Fokus Fraunhofer 3Gb-Testbeds eingesetzt, um unter realen Einsatzbedingungen z. B. in VoIP-, Videokonferenz- , IPTV-, Presence- und Push-to-Talk-Szenarien getestet werden zu können.With the emergence of mobile multimedia services, such as unified messaging, click to dial, cross network multiparty conferencing and seamless multimedia streaming services, the fixed–mobile convergence and voice–data integration has started, leading to an overall Internet–Telecommunications merger. The IP Multimedia Subsystem (IMS) is considered as the next generation service delivery platform in the converged communication world. It consists of modular design with open interfaces and enables the flexibility for providing multimedia services over IP technology. In parallel this open based emerging technology has security challenges from multiple communication platforms and protocols like IP, Session Initiation Protocol (SIP) and Real-time Transport Protocol (RTP). The objective of Secure Service Provisioning (SSP) Framework is to cram the potential attacks and security threats to IP Multimedia Subsystem (IMS) and to explore security solutions developed by IETF, 3GPP and TISPAN. This research work incorporates these solutions into SSP Framework to secure IMS and next generation Service Delivery Platform (SDP). We define this part as level 1 security protection which includes user and network authentication, authorization to access multimedia services, providing confidentiality and integrity protection etc. against eavesdropping, session hijacking and man-in-the middle attacks etc. In the next step, we have investigated the limitations and improvements to level 1 security and proposed the enhancement and extension as level 2 security by developing Intrusion Detection and Prevention (IDP) system against Denial-of-Service (DoS)/Distributed DoS (DDoS) flooding attacks, misuses and frauds in IMS-based networks. These security threats recently have been identified by 3GPP and TISPAN but no solution is recommended and developed. Therefore our solution may be considered as recommendation in future. Our approach based on developing both stateless and stateful intrusion detection and prevention system. From development point of view, we have divided the work into two modules: the first module is IDP-Core; addressing and mitigating the flooding attacks in IMS core. Its objective is to protect the IMS resources and IMS-core entities from DoS/DDoS flooding attacks. This module based on online stateless detection methodology and activates when CPU processing load of P-CSCF (Proxy-Call State Control Function) reaches or crosses the defined threshold limit. The second module is IDP-AS; addressing and mitigating the misuse attacks facing to IMS Application Servers (AS). Its focus is to secure the ISC interface between IMS Core and Application Servers. This module is based on stateful misuse detection methodology by creating and comparing user state (partner) when he/she is communicating with application server to check whether user is performing legitimate or illegitimate action with attacks rules. The IDP-AS also compared the incoming request and outgoing response to and from IMS Application Servers with the defined attacks rules. In the performance analysis, the processing delay and attacks detection accuracy of both Intrusion Detection and Prevention (IDP) modules have been measured at Fraunhofer FOKUS IMS Testbed which is developed for research purpose. The performance evaluation based on normal and overload conditions scenarios. The results showed that the processing delay introduced by both IDP modules satisfied the standard requirements and did not cause retransmission of SIP REGISTER and INVITE requests. The developed prototype is under testing phase at Fraunhofer FOKUS 3Gb Testbed for evaluation in real world communication scenarios like VoIP, video conferencing, IPTV, presence, push-to-talk etc

    Security-centric analysis and performance investigation of IEEE 802.16 WiMAX

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    Selected Computing Research Papers Volume 2 June 2013

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    An Evaluation of Current Innovations for Solving Hard Disk Drive Vibration Problems (Isiaq Adeola) ........................................................................................................ 1 A Critical Evaluation of the Current User Interface Systems Used By the Blind and Visually Impaired (Amneet Ahluwalia) ................................................................................ 7 Current Research Aimed At Improving Bot Detection In Massive Multiplayer Online Games (Jamie Burnip) ........................................................................................................ 13 Evaluation Of Methods For Improving Network Security Against SIP Based DoS Attacks On VoIP Network Infrastructures (David Carney) ................................................ 21 An Evaluation of Current Database Encryption Security Research (Ohale Chidiebere) .... 29 A Critical Appreciation of Current SQL Injection Detection Methods (Lee David Glynn) .............................................................................................................. 37 An Analysis of Current Research into Music Piracy Prevention (Steven Hodgson) .......... 43 Real Time On-line Analytical Processing: Applicability Of Parallel Processing Techniques (Kushatha Kelebeng) ....................................................................................... 49 Evaluating Authentication And Authorisation Method Implementations To Create A More Secure System Within Cloud Computing Technologies (Josh Mallery) ................... 55 A Detailed Analysis Of Current Computing Research Aimed At Improving Facial Recognition Systems (Gary Adam Morrissey) ................................................................... 61 A Critical Analysis Of Current Research Into Stock Market Forecasting Using Artificial Neural Networks (Chris Olsen) ........................................................................... 69 Evaluation of User Authentication Schemes (Sukhdev Singh) .......................................... 77 An Evaluation of Biometric Security Methods for Use on Mobile Devices (Joe van de Bilt) .................................................................................................................. 8

    Intrusion Detection from Heterogenous Sensors

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    RÉSUMÉ De nos jours, la protection des systĂšmes et rĂ©seaux informatiques contre diffĂ©rentes attaques avancĂ©es et distribuĂ©es constitue un dĂ©fi vital pour leurs propriĂ©taires. L’une des menaces critiques Ă  la sĂ©curitĂ© de ces infrastructures informatiques sont les attaques rĂ©alisĂ©es par des individus dont les intentions sont malveillantes, qu’ils soient situĂ©s Ă  l’intĂ©rieur et Ă  l’extĂ©rieur de l’environnement du systĂšme, afin d’abuser des services disponibles, ou de rĂ©vĂ©ler des informations confidentielles. Par consĂ©quent, la gestion et la surveillance des systĂšmes informatiques est un dĂ©fi considĂ©rable considĂ©rant que de nouvelles menaces et attaques sont dĂ©couvertes sur une base quotidienne. Les systĂšmes de dĂ©tection d’intrusion, Intrusion Detection Systems (IDS) en anglais, jouent un rĂŽle clĂ© dans la surveillance et le contrĂŽle des infrastructures de rĂ©seau informatique. Ces systĂšmes inspectent les Ă©vĂ©nements qui se produisent dans les systĂšmes et rĂ©seaux informatiques et en cas de dĂ©tection d’activitĂ© malveillante, ces derniers gĂ©nĂšrent des alertes afin de fournir les dĂ©tails des attaques survenues. Cependant, ces systĂšmes prĂ©sentent certaines limitations qui mĂ©ritent d’ĂȘtre adressĂ©es si nous souhaitons les rendre suffisamment fiables pour rĂ©pondre aux besoins rĂ©els. L’un des principaux dĂ©fis qui caractĂ©rise les IDS est le grand nombre d’alertes redondantes et non pertinentes ainsi que le taux de faux-positif gĂ©nĂ©rĂ©s, faisant de leur analyse une tĂąche difficile pour les administrateurs de sĂ©curitĂ© qui tentent de dĂ©terminer et d’identifier les alertes qui sont rĂ©ellement importantes. Une partie du problĂšme rĂ©side dans le fait que la plupart des IDS ne prennent pas compte les informations contextuelles (type de systĂšmes, applications, utilisateurs, rĂ©seaux, etc.) reliĂ©es Ă  l’attaque. Ainsi, une grande partie des alertes gĂ©nĂ©rĂ©es par les IDS sont non pertinentes en ce sens qu’elles ne permettent de comprendre l’attaque dans son contexte et ce, malgrĂ© le fait que le systĂšme ait rĂ©ussi Ă  correctement dĂ©tecter une intrusion. De plus, plusieurs IDS limitent leur dĂ©tection Ă  un seul type de capteur, ce qui les rend inefficaces pour dĂ©tecter de nouvelles attaques complexes. Or, ceci est particuliĂšrement important dans le cas des attaques ciblĂ©es qui tentent d’éviter la dĂ©tection par IDS conventionnels et par d’autres produits de sĂ©curitĂ©. Bien que de nombreux administrateurs systĂšme incorporent avec succĂšs des informations de contexte ainsi que diffĂ©rents types de capteurs et journaux dans leurs analyses, un problĂšme important avec cette approche reste le manque d’automatisation, tant au niveau du stockage que de l’analyse. Afin de rĂ©soudre ces problĂšmes d’applicabilitĂ©, divers types d’IDS ont Ă©tĂ© proposĂ©s dans les derniĂšres annĂ©es, dont les IDS de type composant pris sur Ă©tagĂšre, commercial off-the-shelf (COTS) en anglais, qui sont maintenant largement utilisĂ©s dans les centres d’opĂ©rations de sĂ©curitĂ©, Security Operations Center (SOC) en anglais, de plusieurs grandes organisations. D’un point de vue plus gĂ©nĂ©ral, les diffĂ©rentes approches proposĂ©es peuvent ĂȘtre classĂ©es en diffĂ©rentes catĂ©gories : les mĂ©thodes basĂ©es sur l’apprentissage machine, tel que les rĂ©seaux bayĂ©siens, les mĂ©thodes d’extraction de donnĂ©es, les arbres de dĂ©cision, les rĂ©seaux de neurones, etc., les mĂ©thodes impliquant la corrĂ©lation d’alertes et les approches fondĂ©es sur la fusion d’alertes, les systĂšmes de dĂ©tection d’intrusion sensibles au contexte, les IDS dit distribuĂ©s et les IDS qui reposent sur la notion d’ontologie de base. Étant donnĂ© que ces diffĂ©rentes approches se concentrent uniquement sur un ou quelques-uns des dĂ©fis courants reliĂ©s aux IDS, au meilleure de notre connaissance, le problĂšme dans son ensemble n’a pas Ă©tĂ© rĂ©solu. Par consĂ©quent, il n’existe aucune approche permettant de couvrir tous les dĂ©fis des IDS modernes prĂ©cĂ©demment mentionnĂ©s. Par exemple, les systĂšmes qui reposent sur des mĂ©thodes d’apprentissage machine classent les Ă©vĂ©nements sur la base de certaines caractĂ©ristiques en fonction du comportement observĂ© pour un type d’évĂ©nements, mais ils ne prennent pas en compte les informations reliĂ©es au contexte et les relations pouvant exister entre plusieurs Ă©vĂ©nements. La plupart des techniques de corrĂ©lation d’alerte proposĂ©es ne considĂšrent que la corrĂ©lation entre plusieurs capteurs du mĂȘme type ayant un Ă©vĂ©nement commun et une sĂ©mantique d’alerte similaire (corrĂ©lation homogĂšne), laissant aux administrateurs de sĂ©curitĂ© la tĂąche d’effectuer la corrĂ©lation entre les diffĂ©rents types de capteurs hĂ©tĂ©rogĂšnes. Pour leur part, les approches sensibles au contexte n’emploient que des aspects limitĂ©s du contexte sous-jacent. Une autre limitation majeure des diffĂ©rentes approches proposĂ©es est l’absence d’évaluation prĂ©cise basĂ©e sur des ensembles de donnĂ©es qui contiennent des scĂ©narios d’attaque complexes et modernes. À cet effet, l’objectif de cette thĂšse est de concevoir un systĂšme de corrĂ©lation d’évĂ©nements qui peut prendre en considĂ©ration plusieurs types hĂ©tĂ©rogĂšnes de capteurs ainsi que les journaux de plusieurs applications (par exemple, IDS/IPS, pare-feu, base de donnĂ©es, systĂšme d’exploitation, antivirus, proxy web, routeurs, etc.). Cette mĂ©thode permettra de dĂ©tecter des attaques complexes qui laissent des traces dans les diffĂ©rents systĂšmes, et d’incorporer les informations de contexte dans l’analyse afin de rĂ©duire les faux-positifs. Nos contributions peuvent ĂȘtre divisĂ©es en quatre parties principales : 1) Nous proposons la Pasargadae, une solution complĂšte sensible au contexte et reposant sur une ontologie de corrĂ©lation des Ă©vĂ©nements, laquelle effectue automatiquement la corrĂ©lation des Ă©vĂ©nements par l’analyse des informations recueillies auprĂšs de diverses sources. Pasargadae utilise le concept d’ontologie pour reprĂ©senter et stocker des informations sur les Ă©vĂ©nements, le contexte et les vulnĂ©rabilitĂ©s, les scĂ©narios d’attaques, et utilise des rĂšgles d’ontologie de logique simple Ă©crites en Semantic Query-Enhance Web Rule Language (SQWRL) afin de corrĂ©ler diverse informations et de filtrer les alertes non pertinentes, en double, et les faux-positifs. 2) Nous proposons une approche basĂ©e sur, mĂ©ta-Ă©vĂ©nement , tri topologique et l‘approche corrĂ©lation dâ€˜Ă©vĂ©nement basĂ©e sur sĂ©mantique qui emploie Pasargadae pour effectuer la corrĂ©lation d’évĂ©nements Ă  travers les Ă©vĂ©nements collectĂ©s de plusieurs capteurs rĂ©partis dans un rĂ©seau informatique. 3) Nous proposons une approche alerte de fusion basĂ©e sur sĂ©mantique, contexte sensible, qui s‘appuie sur certains des sous-composantes de Pasargadae pour effectuer une alerte fusion hĂ©tĂ©rogĂšne recueillies auprĂšs IDS hĂ©tĂ©rogĂšnes. 4) Dans le but de montrer le niveau de flexibilitĂ© de Pasargadae, nous l’utilisons pour mettre en oeuvre d’autres approches proposĂ©es d‘alertes et de corrĂ©lation dâ€˜Ă©vĂ©nements. La somme de ces contributions reprĂ©sente une amĂ©lioration significative de l’applicabilitĂ© et la fiabilitĂ© des IDS dans des situations du monde rĂ©el. Afin de tester la performance et la flexibilitĂ© de l’approche de corrĂ©lation d’évĂ©nements proposĂ©s, nous devons aborder le manque d’infrastructures expĂ©rimental adĂ©quat pour la sĂ©curitĂ© du rĂ©seau. Une Ă©tude de littĂ©rature montre que les approches expĂ©rimentales actuelles ne sont pas adaptĂ©es pour gĂ©nĂ©rer des donnĂ©es de rĂ©seau de grande fidĂ©litĂ©. Par consĂ©quent, afin d’accomplir une Ă©valuation complĂšte, d’abord, nous menons nos expĂ©riences sur deux scĂ©narios d’étude d‘analyse de cas distincts, inspirĂ©s des ensembles de donnĂ©es d’évaluation DARPA 2000 et UNB ISCX IDS. Ensuite, comme une Ă©tude dĂ©posĂ©e complĂšte, nous employons Pasargadae dans un vrai rĂ©seau informatique pour une pĂ©riode de deux semaines pour inspecter ses capacitĂ©s de dĂ©tection sur un vrai terrain trafic de rĂ©seau. Les rĂ©sultats obtenus montrent que, par rapport Ă  d’autres amĂ©liorations IDS existants, les contributions proposĂ©es amĂ©liorent considĂ©rablement les performances IDS (taux de dĂ©tection) tout en rĂ©duisant les faux positifs, non pertinents et alertes en double.----------ABSTRACT Nowadays, protecting computer systems and networks against various distributed and multi-steps attack has been a vital challenge for their owners. One of the essential threats to the security of such computer infrastructures is attacks by malicious individuals from inside and outside of the system environment to abuse available services, or reveal their confidential information. Consequently, managing and supervising computer systems is a considerable challenge, as new threats and attacks are discovered on a daily basis. Intrusion Detection Systems (IDSs) play a key role in the surveillance and monitoring of computer network infrastructures. These systems inspect events occurred in computer systems and networks and in case of any malicious behavior they generate appropriate alerts describing the attacks’ details. However, there are a number of shortcomings that need to be addressed to make them reliable enough in the real-world situations. One of the fundamental challenges in real-world IDS is the large number of redundant, non-relevant, and false positive alerts that they generate, making it a difficult task for security administrators to determine and identify real and important alerts. Part of the problem is that most of the IDS do not take into account contextual information (type of systems, applications, users, networks, etc.), and therefore a large portion of the alerts are non-relevant in that even though they correctly recognize an intrusion, the intrusion fails to reach its objectives. Additionally, to detect newer and complicated attacks, relying on only one detection sensor type is not adequate, and as a result many of the current IDS are unable to detect them. This is especially important with respect to targeted attacks that try to avoid detection by conventional IDS and by other security products. While many system administrators are known to successfully incorporate context information and many different types of sensors and logs into their analysis, an important problem with this approach is the lack of automation in both storage and analysis. In order to address these problems in IDS applicability, various IDS types have been proposed in the recent years and commercial off-the-shelf (COTS) IDS products have found their way into Security Operations Centers (SOC) of many large organizations. From a general perspective, these works can be categorized into: machine learning based approaches including Bayesian networks, data mining methods, decision trees, neural networks, etc., alert correlation and alert fusion based approaches, context-aware intrusion detection systems, distributed intrusion detection systems, and ontology based intrusion detection systems. To the best of our knowledge, since these works only focus on one or few of the IDS challenges, the problem as a whole has not been resolved. Hence, there is no comprehensive work addressing all the mentioned challenges of modern intrusion detection systems. For example, works that utilize machine learning approaches only classify events based on some features depending on behavior observed with one type of events, and they do not take into account contextual information and event interrelationships. Most of the proposed alert correlation techniques consider correlation only across multiple sensors of the same type having a common event and alert semantics (homogeneous correlation), leaving it to security administrators to perform correlation across heterogeneous types of sensors. Context-aware approaches only employ limited aspects of the underlying context. The lack of accurate evaluation based on the data sets that encompass modern complex attack scenarios is another major shortcoming of most of the proposed approaches. The goal of this thesis is to design an event correlation system that can correlate across several heterogeneous types of sensors and logs (e.g. IDS/IPS, firewall, database, operating system, anti-virus, web proxy, routers, etc.) in order to hope to detect complex attacks that leave traces in various systems, and incorporate context information into the analysis, in order to reduce false positives. To this end, our contributions can be split into 4 main parts: 1) we propose the Pasargadae comprehensive context-aware and ontology-based event correlation framework that automatically performs event correlation by reasoning on the information collected from various information resources. Pasargadae uses ontologies to represent and store information on events, context and vulnerability information, and attack scenarios, and uses simple ontology logic rules written in Semantic Query-Enhance Web Rule Language (SQWRL) to correlate various information and filter out non-relevant alerts and duplicate alerts, and false positives. 2) We propose a meta-event based, topological sort based and semantic-based event correlation approach that employs Pasargadae to perform event correlation across events collected form several sensors distributed in a computer network. 3) We propose a semantic-based context-aware alert fusion approach that relies on some of the subcomponents of Pasargadae to perform heterogeneous alert fusion collected from heterogeneous IDS. 4) In order to show the level of flexibility of Pasargadae, we use it to implement some other proposed alert and event correlation approaches. The sum of these contributions represent a significant improvement in the applicability and reliability of IDS in real-world situations. In order to test the performance and flexibility of the proposed event correlation approach, we need to address the lack of experimental infrastructure suitable for network security. A study of the literature shows that current experimental approaches are not appropriate to generate high fidelity network data. Consequently, in order to accomplish a comprehensive evaluation, first, we conduct our experiments on two separate analysis case study scenarios, inspired from the DARPA 2000 and UNB ISCX IDS evaluation data sets. Next, as a complete field study, we employ Pasargadae in a real computer network for a two weeks period to inspect its detection capabilities on a ground truth network traffic. The results obtained show that compared to other existing IDS improvements, the proposed contributions significantly improve IDS performance (detection rate) while reducing false positives, non-relevant and duplicate alerts

    Security for Decentralised Service Location - Exemplified with Real-Time Communication Session Establishment

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    Decentralised Service Location, i.e. finding an application communication endpoint based on a Distributed Hash Table (DHT), is a fairly new concept. The precise security implications of this approach have not been studied in detail. More importantly, a detailed analysis regarding the applicability of existing security solutions to this concept has not been conducted. In many cases existing client-server approaches to security may not be feasible. In addition, to understand the necessity for such an analysis, it is key to acknowledge that Decentralised Service Location has some unique security requirements compared to other P2P applications such as filesharing or live streaming. This thesis concerns the security challenges for Decentralised Service Location. The goals of our work are on the one hand to precisely understand the security requirements and research challenges for Decentralised Service Location, and on the other hand to develop and evaluate corresponding security mechanisms. The thesis is organised as follows. First, fundamentals are explained and the scope of the thesis is defined. Decentralised Service Location is defined and P2PSIP is explained technically as a prototypical example. Then, a security analysis for P2PSIP is presented. Based on this security analysis, security requirements for Decentralised Service Location and the corresponding research challenges -- i.e. security concerns not suitably mitigated by existing solutions -- are derived. Second, several decentralised solutions are presented and evaluated to tackle the security challenges for Decentralised Service Location. We present decentralised algorithms to enable availability of the DHTs lookup service in the presence of adversary nodes. These algorithms are evaluated via simulation and compared to analytical bounds. Further, a cryptographic approach based on self-certifying identities is illustrated and discussed. This approach enables decentralised integrity protection of location-bindings. Finally, a decentralised approach to assess unknown identities is introduced. The approach is based on a Web-of-Trust model. It is evaluated via prototypical implementation. Finally, the thesis closes with a summary of the main contributions and a discussion of open issues
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