Privacy

The obvious privacy issue is how to prevent unauthorized third parties from eavesdropping on an RTP session. This issue is discussed in the next section, Confidentiality. Confidentiality is not the only privacy issue, though; users of an RTP implementation may want to limit the amount of personal information they give out during the session, or they may want to keep the identities of their communication partners secret.

Information regarding a source, possibly including personal details, is communicated in RTCP source description packets, as noted in Chapter 5, RTP Control Protocol. This information has several uses, most of which are legitimate, but some may be regarded as inappropriate by some users. An example of legitimate use might be a teleconferencing application that uses source description packets to convey the names and affiliations of participants , or to provide other caller identification information. Inappropriate use might include providing personal details via RTCP while the user is listening to an online radio station, hence allowing the station and its advertisers to track their audience. Because of these concerns, it is recommended that applications not send source description packets without first informing the user that the information is being made available.

The exception is the canonical name (CNAME), which is mandatory to send. The canonical name includes the IP address of the participant, but this should not represent a privacy issue, because the same information is available from the IP header of the packet (unless the packets pass through an RTCP-unaware Network Address Translation (NAT) device, in which case CNAME packets will expose the internal address, which some sites might want to hide). The canonical name also exposes the user name of the participant, which may be a greater privacy issue. Applications may omit or rewrite the user name to obscure this information, provided that this is done consistently by any set of applications that will associate sessions via the CNAME.

The CNAME provides a mostly unique identifier, which could be used to track participants. This issue is avoided if the participant is joining from a machine with a temporary IP address (for example, a dial-up user whose IP address is assigned dynamically). If the system has a static IP address, little can be done to protect that address from being tracked, but the CNAME provides little more information than can be obtained from the IP headers ( especially if the user name portion of the CNAME is obscured).

Some receivers may not want their presence to be visible at all. It may be acceptable for those receivers not to send RTCP, although doing so prevents the sender from using the reception quality information to adapt its transmission to match the receiver (and it may cause a source to assume that the receiver has failed, and stop transmission). Furthermore, some content providers may require RTCP reports , to gauge the size of their audience.

A related privacy concern involves being able to keep the identities of the partners in a conversation secret. Even if the confidentiality measures described in the next section are used, it is possible for an eavesdropper to observe the RTP packets in transit and gain some knowledge of the communication by looking at the IP headers (for example, your boss might be interested in knowing that your voice-over-IP call is destined for an IP address owned by a recruitment agency). This problem cannot easily be solved with IP, but it can be mitigated if traffic is routed through a trusted third-party gateway that acts as an intermediary with a neutral IP address. (Traffic analysis of the gateway might still reveal communication patterns, unless the gateway is both busy and designed to withstand such analysis.)