IP Multicast E. Vyncke
Internet-Draft Cisco
Intended status: Informational E. Rey
Expires: December 27, 2015 ERNW
A. Atlasis
NCI Agency
June 25, 2015

MLD Security


The latest version of Multicast Listener Discovery protocol is defined in RFC 3810, dated back in 2004. New security research has exhibited new vulnerabilities in MLD, both remote and local attack vectors. This document describes those vulnerabilities and proposes specific mitigation techniques.

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Table of Contents

1. Introduction

The Multicast Listener Discovery protocol version 2 (MLDv2) RFC3810 [RFC3810] has a security section but it was not exhaustive and the focus was only on local forged MLD packets. This document goes beyond those attacks.

For the reader who is not familiar with MLDv2, here are the main points:[Troopers2015].

This document is heavily based on previous research:

2. Local Vulnerabilities

2.1. Downgrading to MLDv1

A single MLDv1 report message is enough to downgrade all MLD nodes (hosts and routers) to the version 1 protocol. This could be used to force a MLD host to reply with MLDv1 reports sent to the multicast group rather than to ff02::16. This downgrade to MLDv1 could also be used to transmit the MLDv1 report with a 'done' operation to remove a listener (stopping the multicast traffic on the subnet). Another consequence of downgrading to MLDv1 can be the fact that an attacker can also used “Host Suppression” feature as part of a DoS attack.

2.2. Queries sent to unicast address

Section 5.1.15 of RFC3810 [RFC3810], specifies that for debugging purposes, nodes must accept and process queries sent to any of their addresses (including unicast). Lab testing, described in [Troopers2015], cleary show that all implementations except FreeBSD accept and process MLD queries sent to a unicast global address. An attacker can then completely bypass the MLD router.

2.3. Win the election

When there are multiple MLD routers in a layer-2 domain, the one with the lowest IPv6 address wins the election and becomes the designated MLD router. An hostile node can then send from a lower link-local address a MLD message and become the MLD router. This could be leveraged to mount a denial of service attack.

2.4. Host enumeration

Some hosts try to prevent host enumeration by not responding to ICMPv6 echo request messages sent to any multicast group. But, the same hosts must reply to any MLD queries including the generic one sent to ff02::1, this allows for MLD host enumeration. As hosts join different groups based on their operating system (specific groups for Microsoft Windows for example), the MLD report can also help for OS fingerprinting.

2.5. Flooding of MLD messages

If an implementation does not rate limit in hardware the rate of processed MLD messages, then they are vulnerable to a CPU exhaustion denial of services. If a node does not limit the number of states associated to MLD, then this node is vulnerable to a memory exhaustion denial of services.

2.6. Amplification

Nodes usually join multiple groups (for example, Microsoft Windows 8.1 joins 4 groups). Therefore a forged generic MLDv1 query will force those nodes to transmit MLDv1 reports for each of their groups (in our example 4); furthermore, many implementations send MLD reports twice (in our example 8 in total). MLDv2 is a little better because reports are sent to ff02::16 and not to the multicast group.

3. Remote Vulnerabilities

MLD messages with hop-limit different than 1 should be discarded but nothing prevent a hostile party located n hops away from the victim to send any MLD messages with a hop-limit set to n+1. Therefore, a remote hostile party can mount attacks against MLD (especially because implementations process MLD quaries sent to a global unicast address).

4. Mitigations

This section proposes some mitigation techniques that could be used to prevent the above attacks. This section is not a specification of any kind, the words 'should' is plain English and is not related to RFC2119 [RFC2119].

5. IANA Considerations

This document contains no IANA considerations.

6. Security Considerations

Thi document describes multiple vulnerabilities that have been described above.

7. Acknowledgements

The author would like to thank Stig Venaas for some discussions on this topic.

8. References

8.1. Normative References

[RFC2710] Deering, S., Fenner, W. and B. Haberman, "Multicast Listener Discovery (MLD) for IPv6", RFC 2710, October 1999.
[RFC3810] Vida, R. and L. Costa, "Multicast Listener Discovery Version 2 (MLDv2) for IPv6", RFC 3810, June 2004.

8.2. Informative References

[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC4443] Conta, A., Deering, S. and M. Gupta, "Internet Control Message Protocol (ICMPv6) for the Internet Protocol Version 6 (IPv6) Specification", RFC 4443, March 2006.
[RFC4541] Christensen, M., Kimball, K. and F. Solensky, "Considerations for Internet Group Management Protocol (IGMP) and Multicast Listener Discovery (MLD) Snooping Switches", RFC 4541, May 2006.
[RFC4861] Narten, T., Nordmark, E., Simpson, W. and H. Soliman, "Neighbor Discovery for IP version 6 (IPv6)", RFC 4861, September 2007.
[RFC6105] Levy-Abegnoli, E., Van de Velde, G., Popoviciu, C. and J. Mohacsi, "IPv6 Router Advertisement Guard", RFC 6105, February 2011.
[Troopers2015] Rey, E., Atlasis, A. and J. Salazar, "MLD Considered Harmful", 2015.

Authors' Addresses

Eric Vyncke Cisco De Kleetlaan 6a Diegem, 1831 Belgium Phone: +32 2 778 4677 EMail: evyncke@cisco.com
Enno Rey ERNW Carl-Bosch-Str. 4 Heidelberg, 69115 Germany Phone: +49 6221 480390 EMail: erey@ernw.de
Antonios Atlasis NCI Agency Oude Waalsdorperweg 61 The Hague, 2597 AK69115 The Netherlands Phone: +31 703743564 EMail: antonios.atlasis@ncia.nato.int