BitTorrent protocol encryption
Protocol encryption (PE), message stream encryption (MSE) or protocol header encrypt (PHE)[a] are related features of some peer-to-peer file-sharing clients, including BitTorrent clients. They attempt to enhance privacy and confidentiality. In addition, they attempt to make traffic harder to identify by third parties including internet service providers (ISPs).
MSE/PE is implemented in BitComet, BitTornado, Deluge, Flashget, KTorrent, libtorrent (used by various BitTorrent clients, including qBittorrent), Mainline, µTorrent, qBittorrent, rTorrent, Transmission, Tixati and Vuze. PHE was implemented in old versions of BitComet. Similar protocol obfuscation is supported in up-to-date versions of some other (non-BitTorrent) systems including eMule.
As of January 2005, BitTorrent traffic made up more than a third of total residential internet traffic, although this dropped to less than 20% as of 2009. Some ISPs deal with this traffic by increasing their capacity whilst others use specialised systems to slow peer-to-peer traffic to cut costs. Obfuscation and encryption make traffic harder to detect and therefore harder to throttle. These systems were designed initially to provide anonymity or confidentiality, but became required in countries where Internet Service Providers were granted the power to throttle BitTorrent users and even ban those they believed were guilty of illegal file sharing.
Protocol header encryption (PHE) was conceived by RnySmile and first implemented in BitComet version 0.60 on 8 September 2005. Some software like IPP2P claims BitComet traffic is detectable even with PHE. PHE is detectable because only part of the stream is encrypted. Since there are no open specifications to this protocol implementation the only possibility to support it in other clients would have been via reverse engineering.
Development of MSE/PE
In late January 2006 the developers of Vuze (then known as Azureus) decided to design and simultaneously implement a new, open protocol obfuscation method, called message stream encryption (MSE). It was included in Azureus CVS snapshot 2307-B29 on 19 January 2006.
This first draft was heavily criticized since it lacked several key features. After negotiations between different BitTorrent developers a new proposal was written and then implemented into the Azureus and µTorrent betas within days. In µTorrent, the new protocol was called protocol encryption (PE).
MSE/PE in BitTorrent client versions
- BitComet version 0.63 was released 7 March 2006. It removed the old protocol header encryption and implemented the new MSE/PE to be compatible with Azureus and µTorrent.
- BitTornado supports MSE/PE as of build T-0.3.18. As of January 5, 2007, this build is still marked "experimental" on the Download page.
- BitTorrent (Mainline) supports MSE/PE since version 4.9.2-beta on May 2, 2006.
- Deluge supports MSE/PE as of Deluge-0.5.1.
- KTorrent implemented MSE/PE in SVN version 535386 on April 29, 2006.
- libtorrent implemented protocol encryption in v0.13 released on 10 December 2011.
- rTorrent supports MSE/PE as of rTorrent-0.7.0.
- Transmission supports MSE/PE as of Transmission-0.90.
- Vuze (formerly Azureus) supports the final spec since 25 January 2006 (CVS snapshot 2307-B33). Azureus version 18.104.22.168 was released 10 February 2006, and was the first stable version of a client to support MSE/PE. However, glitches in Azureus' implementation resulted in improperly encrypted pieces that failed hash checking. The glitches were rectified as of version 22.214.171.124.
- µTorrent premiered MSE/PE 4 days after Azureus with beta 1.4.1 build 407. µTorrent version 1.5 (build 436) was released on 7 March 2006; it was the first stable version of µTorrent with PE.
The BitComet PHE method used in versions 0.60 to 0.62 is neither published, nor is it compatible with MSE/PE.
MSE/PE uses key exchange combined with the infohash of the torrent to establish an RC4 encryption key. The key exchange helps to minimize the risk of passive listeners, and the infohash helps avoid man-in-the-middle attacks. RC4 is chosen for its speed. The first kibibyte (1024 bytes) of the output is discarded to prevent the Fluhrer, Mantin and Shamir attack.
The specification allows the users to choose between encrypting the headers only or the full connection. Encrypting the full connection provides more obfuscation but uses more CPU time.
To ensure compatibility with other clients that don't support this specification, users may also choose whether unencrypted incoming or outgoing connections are still allowed.
Some ISPs are now using more sophisticated measures (e.g. pattern/timing analysis or categorizing ports based on side-channel data) to detect BitTorrent traffic. This means that even encrypted BitTorrent traffic can be throttled. However, with ISPs that continue to use simpler, less costly methods to identify and throttle BitTorrent, the current solution remains effective.
Analysis of the BitTorrent protocol encryption (a.k.a. MSE) has shown that statistical measurements of packet sizes and packet directions of the first 100 packets in a TCP session can be used to identify the obfuscated protocol with over 96% accuracy.
The Sandvine application uses a different approach to disrupt BitTorrent traffic by making seeding impossible. Sandvine intercepts peer-to-tracker communication to identify peers based on the IP address and port numbers in the peer list returned from the tracker. When Sandvine later sees connections to peers in the intercepted peer lists, it may (according to policy) break these connections by sending counterfeit TCP resets. Various solutions exist to protect against Sandvine's attack including encrypting both peer-to-tracker and peer-to-peer communication, using Microsoft's Teredo so that TCP connections are tunneled within UDP packets, filtering TCP resets before they reach the TCP layer in the end-host, or switching entirely from a TCP-based transport to a UDP-based transport. Each solution has its trade-offs. Filtering out TCP resets typically requires kernel access, and the participation of the remote peer since Sandvine sends the reset packet to the local and remote peers.
Bram Cohen, the inventor of BitTorrent, opposed adding encryption to the BitTorrent protocol. Cohen stated he was worried that encryption could create incompatibility between clients. He also stressed the point that the majority of ISPs don't block the torrent protocol. In 2006 Cohen wrote "I rather suspect that some developer has gotten rate limited by his ISP, and is more interested in trying to hack around his ISP's limitations than in the performance of the internet as a whole". Many BitTorrent community users responded strongly against Cohen's accusations. Cohen later added encrypted connections to his Mainline client with the ability to receive but not originate them. Notably, when µTorrent was purchased by BitTorrent, Inc. and then became the next mainline release, the ability to originate encrypted connections was retained, but it became turned off by default. In an interview in 2007, Cohen stated "The so-called 'encryption' of BitTorrent traffic isn't really encryption, it's obfuscation. It provides no anonymity whatsoever, and only temporarily evades traffic shaping."
- Usually referred to as the more proper protocol header encryption.
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