论文信息 - An empirical study of availability in friend-to-friend storage systems

An empirical study of availability in friend-to-friend storage systems

Friend-to-friend networks, i.e. peer-to-peer networks where data are exchanged and stored solely through nodes owned by trusted users, can guarantee dependability, privacy and uncensorability by exploiting social trust. However, the limitation of storing data only on friends can come to the detriment of data availability: if no friends are online, then data stored in the system will not be accessible. In this work, we explore the tradeoffs between redundancy (i.e., how many copies of data are stored on friends), data placement (the choice of which friend nodes to store data on) and data availability (the probability of finding data online). We show that the problem of obtaining maximal availability while minimizing redundancy is NP-complete; in addition, we perform an exploratory study on data placement strategies, and we investigate their performance in terms of redundancy needed and availability obtained. By performing a trace-based evaluation, we show that nodes with as few as 10 friends can already obtain good availability levels.

[1] Rajesh Sharma,et al. SuperNova: Super-peers based architecture for decentralized online social networks , 2011, 2012 Fourth International Conference on Communication Systems and Networks (COMSNETS 2012).

[2] Jinyang Li,et al. Friendstore: cooperative online backup using trusted nodes , 2008, SocialNets '08.

[3] Ben Y. Zhao,et al. OceanStore: an architecture for global-scale persistent storage , 2000, SIGP.

[4] Richard M. Karp,et al. Reducibility Among Combinatorial Problems , 1972, 50 Years of Integer Programming.

[5] Ravi Jain,et al. An Experimental Study of the Skype Peer-to-Peer VoIP System , 2005, IPTPS.

[6] I. Clarke,et al. Private Communication Through a Network of Trusted Connections : The Dark Freenet , 2010 .