Paper Info
Title
DR@FT: efficient remote attestation framework for dynamic systems
Abstract
Remote attestation is an important mechanism to provide the trustworthiness proof of a computing system by verifying its integrity. In this paper, we propose an innovative remote attestation framework called DR@FT for efficiently measuring a target system based on an information flow-based integrity model. With this model, the high integrity processes of a system are first verified through measurements and these processes are then protected from accesses initiated by low integrity processes. Also, our framework verifies the latest state changes in a dynamic system instead of considering the entire system information. In addition, we adopt a graph-based method to represent integrity violations with a ranked violation graph, which supports intuitive reasoning of attestation results. Our experiments and performance evaluation demonstrate the feasibility and practicality of DR@FT.
Year
DOI
Venue
2010
10.1007/978-3-642-15497-3_12
ESORICS
Keywords
Field
DocType
innovative remote attestation framework,integrity violation,efficient remote attestation framework,computing system,target system,entire system information,high integrity process,low integrity process,attestation result,information flow-based integrity model,dynamic system,information flow
Graph,Information flow (information theory),Ranking,Trustworthiness,Computer science,Computer security,System information,Security policy,Computing systems,Dynamical system,Distributed computing
Conference
Volume
ISSN
ISBN
6345
0302-9743
3-642-15496-4
Citations 
PageRank 
References 
1
0.35
11
Authors
5
Name
Order
Citations
PageRank
Wenjuan Xu1514.08
Gail-Joon Ahn23012203.39
Hongxin Hu3123082.32
Zhang Xinwen41695104.61
Jean-Pierre Seifert5375.43