Understanding the Properties of the BitTorrent Overlay

In this paper, we conduct extensive simulations to understand the properties of the overlay generated by BitTorrent. We start by analyzing how the overlay properties impact the efficiency of BitTorrent. We focus on the average peer set size (i.e., average number of neighbors), the time for a peer to reach its maximum peer set size, and the diameter of the overlay. In particular, we show that the later a peer arrives in a torrent, the longer it takes to reach its maximum peer set size. Then, we evaluate the impact of the maximum peer set size, the maximum number of outgoing connections per peer, and the number of NATed peers on the overlay properties. We show that BitTorrent generates a robust overlay, but that this overlay is not a random graph. In particular, the connectivity of a peer to its neighbors depends on its arriving order in the torrent. We also show that a large number of NATed peers significantly compromise the robustness of the overlay to attacks. Finally, we evaluate the impact of peer exchange on the overlay properties, and we show that it generates a chain-like overlay with a large diameter, which will adversely impact the efficiency of large torrents.

[1]  Guillaume Urvoy-Keller,et al.  Impact of Inner Parameters and Overlay Structure on the Performance of BitTorrent , 2006, Proceedings IEEE INFOCOM 2006. 25TH IEEE International Conference on Computer Communications.

[2]  Daniel Stutzbach,et al.  Characterizing the two-tier gnutella topology , 2005, SIGMETRICS '05.

[3]  Kam-Wing Ng,et al.  Modeling, Analysis and Improvement for BitTorrent-Like File Sharing Networks , 2006, Proceedings IEEE INFOCOM 2006. 25TH IEEE International Conference on Computer Communications.

[4]  Mikel Izal,et al.  Dissecting BitTorrent: Five Months in a Torrent's Lifetime , 2004, PAM.

[5]  Eddie Kohler,et al.  Clustering and sharing incentives in BitTorrent systems , 2006, SIGMETRICS '07.

[6]  Xiaoning Ding,et al.  Measurements, analysis, and modeling of BitTorrent-like systems , 2005, IMC '05.

[7]  Arun Venkataramani,et al.  Availability in BitTorrent Systems , 2007, IEEE INFOCOM 2007 - 26th IEEE International Conference on Computer Communications.

[8]  Johan A. Pouwelse,et al.  The Bittorrent P2P File-Sharing System: Measurements and Analysis , 2005, IPTPS.

[9]  Gustavo de Veciana,et al.  Service capacity of peer to peer networks , 2004, IEEE INFOCOM 2004.

[10]  Guillaume Urvoy-Keller,et al.  Rarest first and choke algorithms are enough , 2006, IMC '06.

[11]  R. Srikant,et al.  Modeling and performance analysis of BitTorrent-like peer-to-peer networks , 2004, SIGCOMM '04.

[12]  Stefan Schmid,et al.  Free Riding in BitTorrent is Cheap , 2006, HotNets.

[13]  Srinivasan Seshan,et al.  A case for end system multicast , 2002, IEEE J. Sel. Areas Commun..