eprintid: 278
rev_number: 14
eprint_status: archive
userid: 32
dir: disk0/00/00/02/78
datestamp: 2011-05-26 09:05:07
lastmod: 2011-07-11 14:36:25
status_changed: 2011-05-26 09:05:07
type: book_section
metadata_visibility: show
item_issues_count: 0
creators_name: De Nicola, Rocco
creators_name: Gorla, Daniele
creators_name: Hansen, Rene Rydhof
creators_name: Nielson, Flemming
creators_name: Nielson, Hanne Riis
creators_name: Probst, Christian W.
creators_name: Pugliese, Rosario
creators_id: r.denicola@imtlucca.it
creators_id: 
creators_id: 
creators_id: 
creators_id: 
creators_id: 
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title: From Flow Logic to Static Type Systems for Coordination Languages
ispublished: pub
subjects: QA75
divisions: CSA
full_text_status: none
abstract: Coordination languages are often used to describe open ended systems. This makes it challenging to develop tools for guaranteeing security of the coordinated systems and correctness of their interaction. Successful approaches to this problem have been based on type systems with dynamic checks; therefore, the correctness properties cannot be statically enforced. By contrast, static analysis approaches based on Flow Logic usually guarantee properties statically. In this paper we show how to combine these two approaches to obtain a static type system for describing secure access to tuple spaces and safe process migration for a dialect of the language Klaim.
date: 2008
date_type: published
series: Lecture Notes in Computer Science
volume: 5052
publisher: Springer
pagerange: 100-116
id_number: 10.1007/978-3-540-68265-3_7
refereed: TRUE
isbn: 978-3-540-68264-6
book_title: Coordination Models and Languages (COORDINATION 2008)
editors_name: Lea, Doug
editors_name: Zavattaro, Gianluigi
official_url: http://dx.doi.org/10.1007/978-3-540-68265-3_7
funders: This work has been supported by the EU project SENSORIA, IST-2005-016004.
citation:   De Nicola, Rocco and Gorla, Daniele and Hansen, Rene Rydhof and Nielson, Flemming and Nielson, Hanne Riis and Probst, Christian W. and Pugliese, Rosario  From Flow Logic to Static Type Systems for Coordination Languages.   In:  Coordination Models and Languages (COORDINATION 2008).   Lecture Notes in Computer Science, 5052 .  Springer, pp. 100-116.  ISBN 978-3-540-68264-6      (2008)