Title :
Types and effects for asymmetric cryptographic protocols
Author :
Gordon, Andrew D. ; Jeffrey, Alan
Author_Institution :
Microsoft Res., Cambridge, UK
Abstract :
We present the first type and effect system for proving authenticity properties of security protocols based on asymmetric cryptography. The most significant new features of our type system are: (1) a separation of public types (for data possibly sent to the opponent) from tainted types (for data possibly received from the opponent) via a subtype relation; (2) trust effects, to guarantee that tainted data does not, in fact, originate from the opponent; and (3) challenge/response types to support a variety of idioms used to guarantee message freshness. We illustrate the applicability of our system via protocol examples.
Keywords :
message authentication; pi calculus; protocols; public key cryptography; asymmetric cryptographic protocols; authenticity properties; challenge/response types; message freshness; public data; security protocols; tainted data; trust effects; Computer security; Conferences; Cryptographic protocols; Data security; Public key; Public key cryptography; Safety;
Conference_Titel :
Computer Security Foundations Workshop, 2002. Proceedings. 15th IEEE
Print_ISBN :
0-7695-1689-0
DOI :
10.1109/CSFW.2002.1021808
