4,164 research outputs found
Intrusion Detection Systems for Community Wireless Mesh Networks
Wireless mesh networks are being increasingly used to provide affordable network connectivity to communities where wired deployment strategies are either not possible or are prohibitively expensive. Unfortunately, computer networks (including mesh networks) are frequently being exploited by increasingly profit-driven and insidious attackers, which can affect their utility for legitimate use. In response to this, a number of countermeasures have been developed, including intrusion detection systems that aim to detect anomalous behaviour caused by attacks. We present a set of socio-technical challenges associated with developing an intrusion detection system for a community wireless mesh network. The attack space on a mesh network is particularly large; we motivate the need for and describe the challenges of adopting an asset-driven approach to managing this space. Finally, we present an initial design of a modular architecture for intrusion detection, highlighting how it addresses the identified challenges
Intrusion Detection Systems for Community Wireless Mesh Networks
Wireless mesh networks are being increasingly used to provide affordable network connectivity to communities where wired deployment strategies are either not possible or are prohibitively expensive. Unfortunately, computer networks (including mesh networks) are frequently being exploited by increasingly profit-driven and insidious attackers, which can affect their utility for legitimate use. In response to this, a number of countermeasures have been developed, including intrusion detection systems that aim to detect anomalous behaviour caused by attacks. We present a set of socio-technical challenges associated with developing an intrusion detection system for a community wireless mesh network. The attack space on a mesh network is particularly large; we motivate the need for and describe the challenges of adopting an asset-driven approach to managing this space. Finally, we present an initial design of a modular architecture for intrusion detection, highlighting how it addresses the identified challenges
EbbRT: Elastic Building Block Runtime - case studies
We present a new systems runtime, EbbRT, for cloud hosted applications. EbbRT takes a different approach to the role operating systems play in cloud computing. It supports stitching application functionality across nodes running commodity OSs and nodes running specialized application specific software that only execute what is necessary to accelerate core functions of the application. In doing so, it allows tradeoffs between efficiency, developer productivity, and exploitation of elasticity and scale. EbbRT, as a software model, is a framework for constructing applications as collections of standard application software and Elastic Building Blocks (Ebbs). Elastic Building Blocks are components that encapsulate runtime software objects and are implemented to exploit the raw access, scale and elasticity of IaaS resources to accelerate critical application functionality. This paper presents the EbbRT architecture, our prototype and experimental evaluation of the prototype under three different application scenarios
Storytelling Security: User-Intention Based Traffic Sanitization
Malicious software (malware) with decentralized communication infrastructure, such as peer-to-peer botnets, is difficult to detect. In this paper, we describe a traffic-sanitization method for identifying malware-triggered outbound connections from a personal computer. Our solution correlates user activities with the content of outbound traffic. Our key observation is that user-initiated outbound traffic typically has corresponding human inputs, i.e., keystroke or mouse clicks. Our analysis on the causal relations between user inputs and packet payload enables the efficient enforcement of the inter-packet dependency at the application level.
We formalize our approach within the framework of protocol-state machine. We define new application-level traffic-sanitization policies that enforce the inter-packet dependencies. The dependency is derived from the transitions among protocol states that involve both user actions and network events. We refer to our methodology as storytelling security.
We demonstrate a concrete realization of our methodology in the context of peer-to-peer file-sharing application, describe its use in blocking traffic of P2P bots on a host. We implement and evaluate our prototype in Windows operating system in both online and offline deployment settings. Our experimental evaluation along with case studies of real-world P2P applications demonstrates the feasibility of verifying the inter-packet dependencies. Our deep packet inspection incurs overhead on the outbound network flow. Our solution can also be used as an offline collect-and-analyze tool
EbbRT: Elastic Building Block Runtime - overview
EbbRT provides a lightweight runtime that enables the construction of reusable, low-level system software which can integrate with existing, general purpose systems. It achieves this by providing a library that can be linked into a process on an existing OS, and as a small library OS that can be booted directly on an IaaS node
A CONTENT-ADDRESSABLE-MEMORY ASSISTED INTRUSION PREVENTION EXPERT SYSTEM FOR GIGABIT NETWORKS
Cyber intrusions have become a serious problem with growing frequency and complexity. Current Intrusion Detection/Prevention Systems (IDS/IPS) are deficient in speed and/or accuracy. Expert systems are one functionally effective IDS/IPS method. However, they are in general computationally intensive and too slow for real time requirements. This poor performance prohibits expert system's applications in gigabit networks. This dissertation describes a novel intrusion prevention expert system architecture that utilizes the parallel search capability of Content Addressable Memory (CAM) to perform intrusion detection at gigabit/second wire speed. A CAM is a parallel search memory that compares all of its entries against input data in parallel. This parallel search is much faster than the serial search operation in Random Access Memory (RAM). The major contribution of this thesis is to accelerate the expert system's performance bottleneck "match" processes using the parallel search power of a CAM, thereby enabling the expert systems for wire speed network IDS/IPS applications. To map an expert system's Match process into a CAM, this research introduces a novel "Contextual Rule" (C-Rule) method that fundamentally changes expert systems' computational structures without changing its functionality for the IDS/IPS problem domain. This "Contextual Rule" method combines expert system rules and current network states into a new type of dynamic rule that exists only under specific network state conditions. This method converts the conventional two-database match process into a one-database search process. Therefore it enables the core functionality of the expert system to be mapped into a CAM and take advantage of its search parallelism.This thesis also introduces the CAM-Assisted Intrusion Prevention Expert System (CAIPES) architecture and shows how it can support the vast majority of the rules in the 1999 Lincoln Lab's DARPA Intrusion Detection Evaluation data set, and rules in the open source IDS "Snort". Supported rules are able to detect single-packet attacks, abusive traffic and packet flooding attacks, sequences of packets attacks, and flooding of sequences attacks. Prototyping and simulation have been performed to demonstrate the detection capability of these four types of attacks. Hardware simulation of an existing CAM shows that the CAIPES architecture enables gigabit/s IDS/IPS
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