Visible to the public Biblio

Filters: Author is Deshotels, Luke  [Clear All Filters]
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
D
Deshotels, Luke, Deaconescu, Razvan, Chiroiu, Mihai, Davi, Lucas, Enck, William, Sadeghi, Ahmad-Reza.  2016.  SandScout: Automatic Detection of Flaws in iOS Sandbox Profiles. Proceedings of the 2016 ACM SIGSAC Conference on Computer and Communications Security. :704–716.

Recent literature on iOS security has focused on the malicious potential of third-party applications, demonstrating how developers can bypass application vetting and code-level protections. In addition to these protections, iOS uses a generic sandbox profile called "container" to confine malicious or exploited third-party applications. In this paper, we present the first systematic analysis of the iOS container sandbox profile. We propose the SandScout framework to extract, decompile, formally model, and analyze iOS sandbox profiles as logic-based programs. We use our Prolog-based queries to evaluate file-based security properties of the container sandbox profile for iOS 9.0.2 and discover seven classes of exploitable vulnerabilities. These attacks affect non-jailbroken devices running later versions of iOS. We are working with Apple to resolve these attacks, and we expect that SandScout will play a significant role in the development of sandbox profiles for future versions of iOS.

Deshotels, Luke, Deaconescu, Razvan, Carabas, Costin, Manda, Iulia, Enck, William, Chiroiu, Mihai, Li, Ninghui, Sadeghi, Ahmad-Reza.  2018.  iOracle: Automated Evaluation of Access Control Policies in iOS. Proceedings of the 2018 on Asia Conference on Computer and Communications Security. :117-131.

Modern operating systems, such as iOS, use multiple access control policies to define an overall protection system. However, the complexity of these policies and their interactions can hide policy flaws that compromise the security of the protection system. We propose iOracle, a framework that logically models the iOS protection system such that queries can be made to automatically detect policy flaws. iOracle models policies and runtime context extracted from iOS firmware images, developer resources, and jailbroken devices, and iOracle significantly reduces the complexity of queries by modeling policy semantics. We evaluate iOracle by using it to successfully triage executables likely to have policy flaws and comparing our results to the executables exploited in four recent jailbreaks. When applied to iOS 10, iOracle identifies previously unknown policy flaws that allow attackers to modify or bypass access control policies. For compromised system processes, consequences of these policy flaws include sandbox escapes (with respect to read/write file access) and changing the ownership of arbitrary files. By automating the evaluation of iOS access control policies, iOracle provides a practical approach to hardening iOS security by identifying policy flaws before they are exploited.

S
Shu, Rui, Wang, Peipei, Gorski III, Sigmund A, Andow, Benjamin, Nadkarni, Adwait, Deshotels, Luke, Gionta, Jason, Enck, William, Gu, Xiaohui.  2016.  A Study of Security Isolation Techniques. ACM Comput. Surv.. 49:50:1–50:37.

Security isolation is a foundation of computing systems that enables resilience to different forms of attacks. This article seeks to understand existing security isolation techniques by systematically classifying different approaches and analyzing their properties. We provide a hierarchical classification structure for grouping different security isolation techniques. At the top level, we consider two principal aspects: mechanism and policy. Each aspect is broken down into salient dimensions that describe key properties. We break the mechanism into two dimensions, enforcement location and isolation granularity, and break the policy aspect down into three dimensions: policy generation, policy configurability, and policy lifetime. We apply our classification to a set of representative articles that cover a breadth of security isolation techniques and discuss tradeoffs among different design choices and limitations of existing approaches.