[BD+03] A Java Middleware for Guaranteeing Privacy of Distributed Tuple Spaces

Formal Methods in Computing
(Most of the papers antecedent to 1995
are not included in the list)

BD03 (In proceedings)
Author(s)	Lorenzo Bettini and Rocco De Nicola
Title	« A Java Middleware for Guaranteeing Privacy of Distributed Tuple Spaces »
In	Proc. of FIDJI'02, Int. Workshop on scientific engineering of distributed Java applications
Series	LNCS
Editor(s)	N. Guelfi, E. Astesiano and G. Reggio
Number	2604
Page(s)	175-184
Year	2003
Publisher	Springer
URL	http://music.dsi.unifi.it/papers/cryptoklava.ps.gz

Abstract

The tuple space communication model, such as the one used in Linda, provides great flexibility for modeling concurrent, distributed and mobile processes. In a distributed setting with mobile agents, particular attention is needed for protecting sites and information. We have designed and developed a Java middleware, Klava, for implementing distributed tuple spaces and operations to support agent interaction and mobility. In this paper, we extend the Klava middleware with cryptographic primitives that enable encryption and decryption of tuple fields. We describe the actual implementation of the new primitives and provide a few examples. The proposed extension is general enough to be applied to similar Java frameworks using multiple distributed tuples spaces possibly dealing with mobility.

BibTeX code

@inproceedings{BD03,
  number = {2604},
  author = {Bettini, Lorenzo and De Nicola, Rocco},
  series = {LNCS},
  booktitle = {Proc. of FIDJI'02, Int. Workshop on scientific engineering of
               distributed Java applications},
  editor = {N. Guelfi and E. Astesiano and G. Reggio},
  url = {http://music.dsi.unifi.it/papers/cryptoklava.ps.gz},
  title = {{A Java Middleware for Guaranteeing Privacy of Distributed Tuple
           Spaces}},
  abstract = {The tuple space communication model, such as the one used in
              Linda, provides great flexibility for modeling concurrent,
              distributed and mobile processes. In a distributed setting with
              mobile agents, particular attention is needed for protecting sites
              and information. We have designed and developed a Java middleware,
              Klava, for implementing distributed tuple spaces and operations to
              support agent interaction and mobility. In this paper, we extend
              the Klava middleware with cryptographic primitives that enable
              encryption and decryption of tuple fields. We describe the actual
              implementation of the new primitives and provide a few examples.
              The proposed extension is general enough to be applied to similar
              Java frameworks using multiple distributed tuples spaces possibly
              dealing with mobility.},
  publisher = {Springer},
  year = {2003},
  pages = {175-184},
}

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