One document matched: draft-ietf-sipping-consent-reqs-01.txt
Differences from draft-ietf-sipping-consent-reqs-00.txt
SIPPING J. Rosenberg
Internet-Draft Cisco Systems
Expires: January 19, 2006 G. Camarillo, Ed.
Ericsson
D. Willis
Cisco Systems
July 18, 2005
Requirements for Consent-Based Communications in the Session Initiation
Protocol (SIP)
draft-ietf-sipping-consent-reqs-01.txt
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Copyright (C) The Internet Society (2005).
Abstract
The Session Initiation Protocol (SIP) supports communications across
many media types, including real-time audio, video, text, instant
messaging, and presence. In its current form, it allows session
invitations, instant messages, and other requests to be delivered
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from one party to another without requiring explicit consent of the
recipient. Without such consent, it is possible for SIP to be used
for malicious purposes, including spam and denial-of-service attacks.
This document identifies a set of requirements for extensions to SIP
that add consent-based communications.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Problem Statement . . . . . . . . . . . . . . . . . . . . . . 3
3. Requirements . . . . . . . . . . . . . . . . . . . . . . . . . 5
4. Security Considerations . . . . . . . . . . . . . . . . . . . 6
5. References . . . . . . . . . . . . . . . . . . . . . . . . . . 7
5.1 Normative References . . . . . . . . . . . . . . . . . . . 7
5.2 Informational References . . . . . . . . . . . . . . . . . 7
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . 7
Intellectual Property and Copyright Statements . . . . . . . . 9
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1. Introduction
The Session Initiation Protocol (SIP) [1] supports communications
across many media types, including real-time audio, video, text,
instant messaging, and presence. This communication is established
by the transmission of various SIP requests (such as INVITE and
MESSAGE [4]) from an initiator to the recipient, with whom
communication is desired. Although a recipient of such a SIP request
can reject the request, and therefore decline the session, a SIP
network will deliver a SIP request to the recipient without their
explicit consent.
Receipt of these requests without explicit consent can cause a number
of problems in SIP networks. These include spam and DoS (Denial of
Service) attacks. These problems have plagued email. Fortunately,
most SIP networks, at time of writing, were not interconnected with
each other, and so the incidences of such problems have been lower.
However, once such broad interconnection occurs, these problems will
arise. Therefore, it is important to address them proactively,
before it is too late.
This document elaborates on the problems posed by the current open
model in which SIP was designed, and then goes on to define a set of
requirements for adding a consent framework to SIP.
2. Problem Statement
In SIP networks designed according to the principles of RFC 3261 [1]
and RFC 3263 [2], anyone on the Internet can create and send a SIP
request to any other SIP user, by identifying that user with a SIP
URI. The SIP network will usually deliver this request to the user
identified by that URI. It is possible, of course, for network
services, such as call screening, to block such messaging from
occuring, but this is not widespread and certainly not a systematic
solution to the problem under consideration here.
Once the SIP request is received by the recipient, the user agent
typically takes some kind of automated action to alert the user about
receipt of the message. For INVITE requests, this usually involves
"ringing the phone", or creating a screen pop. These indicators
frequently convey the subject of the call and the identity of the
caller. Due to the real-time nature of the session, these alerts are
typically disruptive in nature, so as to get the attention of the
user.
For MESSAGE requests, the content of the message is usually rendered
to the user.
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SUBSCRIBE [3] requests do not normally get delivered to the user
agents residing on a user's devices. Rather, they are normally
processed by network-based state agents. The watcher information
event package allows a user to find out that such requests were
generated for them, affording the user the opportunity to approve or
deny the request. As a result, SUBSCRIBE processing, and most
notably presence, already has a consent-based operation.
Nevertheless, this already-existing consent mechanism for SIP
subscriptions does not protect network agents against DoS attacks.
There are two principal problems that arise when MESSAGE and INVITE
requests can be delivered to user agents directly, without their
consent. The first is spam. For INVITE requests, this takes the
form of typical "telemarketer" calls. A user might receive a stream
of never-ending requests for communications, each of them disrupting
the user and demanding their attention. For MESSAGE requests, the
problem is even more severe. The user might receive a never-ending
stream of screen pops that deliver unwanted, malicious, or otherwise
undesired content.
The second problem is DoS attacks. SIP proxies provide a convenient
relay point for targeting a message to a particular user or IP
address, and in particular, relaying to a recipient which is often
not directly reachable without usage of the proxy. Worse, some
proxies or back to back user agents generate multiple outgoing
requests upon receipt of an incoming request. This occurs in forking
proxies, and in URI-list services. Examples of URI-list services are
subscriptions to resource lists, dial out conference servers, and
MESSAGE URI-list services. These SIP elements can be used as an
amplifier, allowing the transmission of a single SIP request to flood
packets to a single recipient or network. For example, a user can
create a buddy list with 100 entries, each of which is a URI of the
form "sip:identifier@target-IP", where target-IP is the IP address to
which the attack is to be directed. Sending a single SIP SUBSCRIBE
request to such a list will cause the resource list server to
generate 100 SUBSCRIBE requests, each to the IP address of the
target, which does not even need to be a SIP node.
Note that the target-IP does not need to be the same in all the
URIs in order to attack a single machine. For example, the
target-IP addresses may all belong to the same subnetwork, in
which case the target of the attack would be the access router of
the subnetwork.
Though the spam and DoS problems are not quite the same, both can be
alleviated by adding a consent-based communications framework to SIP.
Such a framework keeps servers from relaying messages to users
without their consent.
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The framework for SIP URI-list services [5] identifies these two
problems (spam and DoS attacks) in the context of URI-list
services. That framework mandates the use of opt-in lists, which
are a form of consent-based communications. The reader can find
an analysis on how a consent-based framework help alleviating
spam-related problems in [6].
3. Requirements
The following identify requirements for a solution that provides
consent-based communications in SIP.
REQ 1: The solution must keep relays from delivering a SIP message to
a recipient unless the recipient has explicitly granted permission
for receipt of that type of message.
REQ 2: The solution shall prevent SIP servers from generating more
than one outbound request in response to an inbound request,
unless permission to do so has been granted by the resource to
whom the outbound request was to be targeted.
REQ 3: The permissions shall be capable of specifying that messages
from a specific user, identified by a SIP AoR, are permitted.
REQ 4: It shall be possible for a user with a particular AoR to
specify permissions separately for each resource that wishes to
relay requests to that AOR.
REQ 5: The permissions shall be capable of specifying that only
certain types of messages, such as INVITE or MESSAGE request, are
permitted from a user.
REQ 6: It shall be possible for a user to revoke permissions at any
time.
REQ 7: It shall be possible for the users to specify that permissions
are time limited, and must be refreshed after expiration.
REQ 8: It shall not be required for a user or user agent to store
information in order to be able to revoke permissions that were
previously granted for a relay resource.
REQ 9: The solution shall work in an inter-domain context, without
requiring pre-established relationships between domains.
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REQ 10: The solution shall work for all current and future SIP
methods.
REQ 11: The solution shall be applicable to forking proxies.
REQ 12: The solution shall be applicable to URI-list services, such
as resource list servers, MESSAGE URI-list services, and
conference servers performing dial-out functions.
REQ 13: The solution shall be applicable to both stored and request-
contained URI-list services.
REQ 14: The solution shall allow anonymous communications, as long as
the recipient is willing to accept anonymous communications.
REQ 15: If the recipient of requests wishes to be anonymous, it shall
be possible for them to grant permissions without a sender knowing
their identity.
REQ 16: The solution shall prevent against attacks that seek to
undermine the underlying goal of consent. That is, it should not
be possible to "fool" the system into delivering a request for
which permission was not, in fact, granted.
REQ 17: The solution shall not require the recipient of the
communications to be connected to the network at the time
communications is attempted.
REQ 18: The solution shall note require the sender of a
communications to be connected at the time that a recipient
provides permission.
REQ 19: The solution should not, in and of itself, create substantial
additional messaging. Doing so defeats some of the purpose of the
solution.
REQ 20: The solution should scale to Internet-wide deployment.
4. Security Considerations
Security has been discussed throughout this specification.
5. References
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5.1 Normative References
[1] Rosenberg, J., Schulzrinne, H., Camarillo, G., Johnston, A.,
Peterson, J., Sparks, R., Handley, M., and E. Schooler, "SIP:
Session Initiation Protocol", RFC 3261, June 2002.
[2] Rosenberg, J. and H. Schulzrinne, "Session Initiation Protocol
(SIP): Locating SIP Servers", RFC 3263, June 2002.
5.2 Informational References
[3] Roach, A., "Session Initiation Protocol (SIP)-Specific Event
Notification", RFC 3265, June 2002.
[4] Campbell, B., Rosenberg, J., Schulzrinne, H., Huitema, C., and
D. Gurle, "Session Initiation Protocol (SIP) Extension for
Instant Messaging", RFC 3428, December 2002.
[5] Camarillo, G. and A. Roach, "Requirements and Framework for
Session Initiation Protocol (SIP)Uniform Resource Identifier
(URI)-List Services", draft-ietf-sipping-uri-services-03 (work
in progress), April 2005.
[6] Rosenberg, J. and C. Jennings, "The Session Initiation Protocol
(SIP) and Spam", draft-rosenberg-sipping-spam-01 (work in
progress), October 2004.
Authors' Addresses
Jonathan Rosenberg
Cisco Systems
600 Lanidex Plaza
Parsippany, NJ 07054
US
Phone: +1 973 952-5000
Email: jdrosen@cisco.com
URI: http://www.jdrosen.net
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Gonzalo Camarillo (editor)
Ericsson
Hirsalantie 11
Jorvas 02420
Finland
Email: Gonzalo.Camarillo@ericsson.com
Dean Willis
Cisco Systems
2200 E. Pres. George Bush Turnpike
Richardson, TX 75082
USA
Email: dean.willis@softarmor.com
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