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Author Majuntke, Matthias ♦ Dobre, Dan ♦ Serafini, Marco ♦ Suri, Neeraj
Source CiteSeerX
Content type Text
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Subject Domain (in DDC) Computer science, information & general works ♦ Data processing & computer science
Abstract Abstract. We address the problem of emulating a shared read/write memory in a message passing system using a storage server prone to Byzantine failures. Although cryptography can be used to ensure confidentiality and integrity of the data, nothing can prevent a malicious server from returning obsolete data. Fork-linearizability [1] guarantees that if a malicious server hides an update of some client from another client, then these two clients will never see each others ’ updates again. Fork-linearizability is arguably the strongest consistency property attainable in the presence of a malicious server. Recent work [2] has shown that there is no fork-linearizable shared memory emulation that supports wait-free operations. On the positive side, it has been shown that lockbased emulations exist [1,2]. Lock-based protocols are fragile because they are blocking if clients may crash. In this paper we present for the first time lock-free emulations of fork-linearizable shared memory. We have developed two protocols, Linear and Concur. With a correct server, both protocols guarantee linearizability and that every operation successfully completes in the absence of step contention, while interfering operations terminate by aborting. The Concur algorithm additionally ensures that concurrent operations invoked on different registers complete successfully. Keywords: Fork-linearizability, abortable objects, lock-freedom, shared memory, online collaboration. 1
Educational Role Student ♦ Teacher
Age Range above 22 year
Educational Use Research
Education Level UG and PG ♦ Career/Technical Study
Learning Resource Type Article