Randomized Intrusion-Tolerant Asynchronous Services

Author

Moniz, Henrique ; Neves, Nuno Ferreira ; Correia, Miguel ; Veríssimo, Paulo

Author_Institution

Lisbon Univ.

fYear

2006

fDate

25-28 June 2006

Firstpage

568

Lastpage

577

Abstract

Randomized agreement protocols, often assumed to be inefficient due to their high expected communication and time complexities, they have remained largely overlooked by the community-at-large as a valid solution for the deployment of fault-tolerant distributed systems. This paper aims to demonstrate that randomization can be a very competitive approach even in hostile environments where arbitrary faults can occur. A stack of randomized intrusion-tolerant protocols is described and its performance evaluated under different faultloads. The stack provides a set of relevant services ranging from basic communication primitives up to atomic broadcast. The experimental evaluation shows that the protocols are efficient and no performance reduction is observed under certain Byzantine faults

Keywords

fault tolerant computing; message passing; protocols; randomised algorithms; security of data; Byzantine faults; atomic broadcast; communication complexity; fault-tolerant distributed systems; randomized agreement protocols; randomized intrusion-tolerant asynchronous services; randomized intrusion-tolerant protocols; time complexity; Broadcasting; Computer networks; Computer science; Computer security; Control systems; Detectors; Fault tolerant systems; Protocols; Resists; US Department of Transportation;

fLanguage

English

Publisher

ieee

Conference_Titel

Dependable Systems and Networks, 2006. DSN 2006. International Conference on

Conference_Location

Philadelphia, PA

Print_ISBN

0-7695-2607-1

Type

conf

DOI

10.1109/DSN.2006.60

Filename

1633545