826 research outputs found
A Formal TLS Handshake Model in LNT
Testing of network services represents one of the biggest challenges in cyber
security. Because new vulnerabilities are detected on a regular basis, more
research is needed. These faults have their roots in the software development
cycle or because of intrinsic leaks in the system specification. Conformance
testing checks whether a system behaves according to its specification. Here
model-based testing provides several methods for automated detection of
shortcomings. The formal specification of a system behavior represents the
starting point of the testing process. In this paper, a widely used
cryptographic protocol is specified and tested for conformance with a test
execution framework. The first empirical results are presented and discussed.Comment: In Proceedings MARS/VPT 2018, arXiv:1803.0866
Compiling symbolic attacks to protocol implementation tests
Recently efficient model-checking tools have been developed to find flaws in
security protocols specifications. These flaws can be interpreted as potential
attacks scenarios but the feasability of these scenarios need to be confirmed
at the implementation level. However, bridging the gap between an abstract
attack scenario derived from a specification and a penetration test on real
implementations of a protocol is still an open issue. This work investigates an
architecture for automatically generating abstract attacks and converting them
to concrete tests on protocol implementations. In particular we aim to improve
previously proposed blackbox testing methods in order to discover automatically
new attacks and vulnerabilities. As a proof of concept we have experimented our
proposed architecture to detect a renegotiation vulnerability on some
implementations of SSL/TLS, a protocol widely used for securing electronic
transactions.Comment: In Proceedings SCSS 2012, arXiv:1307.802
Secure Identification in Social Wireless Networks
The applications based on social networking have brought revolution towards social life and are continuously gaining popularity among the Internet users. Due to the advanced computational resources offered by the innovative hardware and nominal subscriber charges of network operators, most of the online social networks are transforming into the mobile domain by offering exciting applications and games exclusively designed for users on the go. Moreover, the mobile devices are considered more personal as compared to their desktop rivals, so there is a tendency among the mobile users to store sensitive data like contacts, passwords, bank account details, updated calendar entries with key dates and personal notes on their devices.
The Project Social Wireless Network Secure Identification (SWIN) is carried out at Swedish Institute of Computer Science (SICS) to explore the practicality of providing the secure mobile social networking portal with advanced security features to tackle potential security threats by extending the existing methods with more innovative security technologies. In addition to the extensive background study and the determination of marketable use-cases with their corresponding security requirements, this thesis proposes a secure identification design to satisfy the security dimensions for both online and offline peers. We have implemented an initial prototype using PHP Socket and OpenSSL library to simulate the secure identification procedure based on the proposed design. The design is in compliance with 3GPP‟s Generic Authentication Architecture (GAA) and our implementation has demonstrated the flexibility of the solution to be applied independently for the applications requiring secure identification. Finally, the thesis provides strong foundation for the advanced implementation on mobile platform in future
Options for Securing RTP Sessions
The Real-time Transport Protocol (RTP) is used in a large number of
different application domains and environments. This heterogeneity
implies that different security mechanisms are needed to provide
services such as confidentiality, integrity, and source
authentication of RTP and RTP Control Protocol (RTCP) packets
suitable for the various environments. The range of solutions makes
it difficult for RTP-based application developers to pick the most
suitable mechanism. This document provides an overview of a number
of security solutions for RTP and gives guidance for developers on
how to choose the appropriate security mechanism
mdTLS: How to Make middlebox-aware TLS more efficient?
The more data transmission over TLS protocol becomes increasingly common in
IT Systems, the more middleboxes are deployed in networks. These middleboxes
have several advantages, however, they become the target of cyber-attacks. Many
researchers proposed revised versions of TLS protocols to make them secure,
however, their approaches had some limitations. In this paper, we propose a
middlebox-delegated TLS (mdTLS) protocol to improve performance based on the
middlebox-aware TLS (maTLS), one of the most secure TLS protocols. We found out
that the computational complexity of mdTLS is about twice as low as that of
maTLS. Furthermore, we formally verified that our proposal meets newly defined
security goals as well as those verified by maTLS. All of the formal models and
lemmas are open to the public through following url
https://github.com/HackProof/mdTLS.Comment: 22 pages, 3 figures, 9 table
Contributions to Securing Software Updates in IoT
The Internet of Things (IoT) is a large network of connected devices. In IoT, devices can communicate with each other or back-end systems to transfer data or perform assigned tasks. Communication protocols used in IoT depend on target applications but usually require low bandwidth. On the other hand, IoT devices are constrained, having limited resources, including memory, power, and computational resources. Considering these limitations in IoT environments, it is difficult to implement best security practices. Consequently, network attacks can threaten devices or the data they transfer. Thus it is crucial to react quickly to emerging vulnerabilities. These vulnerabilities should be mitigated by firmware updates or other necessary updates securely. Since IoT devices usually connect to the network wirelessly, such updates can be performed Over-The-Air (OTA). This dissertation presents contributions to enable secure OTA software updates in IoT. In order to perform secure updates, vulnerabilities must first be identified and assessed. In this dissertation, first, we present our contribution to designing a maturity model for vulnerability handling. Next, we analyze and compare common communication protocols and security practices regarding energy consumption. Finally, we describe our designed lightweight protocol for OTA updates targeting constrained IoT devices. IoT devices and back-end systems often use incompatible protocols that are unable to interoperate securely. This dissertation also includes our contribution to designing a secure protocol translator for IoT. This translation is performed inside a Trusted Execution Environment (TEE) with TLS interception. This dissertation also contains our contribution to key management and key distribution in IoT networks. In performing secure software updates, the IoT devices can be grouped since the updates target a large number of devices. Thus, prior to deploying updates, a group key needs to be established among group members. In this dissertation, we present our designed secure group key establishment scheme. Symmetric key cryptography can help to save IoT device resources at the cost of increased key management complexity. This trade-off can be improved by integrating IoT networks with cloud computing and Software Defined Networking (SDN).In this dissertation, we use SDN in cloud networks to provision symmetric keys efficiently and securely. These pieces together help software developers and maintainers identify vulnerabilities, provision secret keys, and perform lightweight secure OTA updates. Furthermore, they help devices and systems with incompatible protocols to be able to interoperate
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