Title :
Non-zero sum games and survivable malware
Abstract :
There has been much recent work in the area of beneficial mobile agents and malicious mobile agents such as cryptoviruses. We show that by making a cryptovirus a distributed algorithm, and by utilizing PKI, mix-nets, and public bulletin boards, novel malware attacks are possible. In particular, a distributed cryptovirus attack is presented that forces the victim to become a player in a nonzero sum game under the threat of sensitive information disclosure. The attack is modeled as a nonzero sum game wherein the rules are enforced by cryptographic protocols. It is shown that the optimal strategy for the host machine involves the extension of the life of the payload even after it is discovered on the victim´s machine. This therefore extends both the life and decision capability of the virus. The existence of this attack demonstrates the plausibility of survivable malware in public networks.
Keywords :
computer viruses; decision making; distributed algorithms; electronic mail; game theory; message passing; mobile agents; protocols; public key cryptography; telecommunication security; PKI; anonymous remailer; cryptographic protocols; cryptovirus; distributed algorithm; host machine optimal strategy; malware attack; mix network; mobile agent; nonzero sum games; public bulletin board; public key cryptography; public key infrastructure; public networks; sensitive information disclosure; survivable malware; virus decision capability; virus life; Computer industry; Distributed algorithms; Game theory; Information analysis; Mobile agents; Payloads; Public key; Public key cryptography; US Government; Utility theory;
Conference_Titel :
Information Assurance Workshop, 2003. IEEE Systems, Man and Cybernetics Society
Print_ISBN :
0-7803-7808-3
DOI :
10.1109/SMCSIA.2003.1232396
