Operational Security Capabilities for F. Gont IP Network Infrastructure (opsec) UTN-FRH / SI6 Networks Internet-Draft R. Atkinson Intended status: BCP Consultant Expires: August 20, 2012 C. Pignataro Cisco February 17, 2012 Recommendations on filtering of IPv4 packets containing IPv4 options draft-gont-opsec-ip-options-filtering-03.txt Abstract This document document provides advice on the filtering of IPv4 packets based on the IPv4 options they contain. Additionally, it discusses the operational and interoperability implications of such filtering. Status of this Memo This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79. Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet- Drafts is at http://datatracker.ietf.org/drafts/current/. Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress." This Internet-Draft will expire on August 20, 2012. Copyright Notice Copyright (c) 2012 IETF Trust and the persons identified as the document authors. All rights reserved. This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of Gont, et al. Expires August 20, 2012 [Page 1] Internet-Draft Filtering of IP-optioned packets February 2012 the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 3 1.1. Terminology and Conventions Used in This Document . . . . 3 2. IP Options . . . . . . . . . . . . . . . . . . . . . . . . . . 4 3. General Security Implications of IP options . . . . . . . . . 5 3.1. Processing Requirements . . . . . . . . . . . . . . . . . 5 4. Advice on the Handling of Packets with Specific IP Options . . 5 4.1. End of Option List (Type = 0) . . . . . . . . . . . . . . 5 4.2. No Operation (Type = 1) . . . . . . . . . . . . . . . . . 6 4.3. Loose Source and Record Route (LSRR) (Type = 131) . . . . 6 4.4. Strict Source and Record Route (SSRR) (Type = 137) . . . . 8 4.5. Record Route (Type = 7) . . . . . . . . . . . . . . . . . 8 4.6. Stream Identifier (Type = 136) (obsolete) . . . . . . . . 9 4.7. Internet Timestamp (Type = 68) . . . . . . . . . . . . . . 10 4.8. Router Alert (Type = 148) . . . . . . . . . . . . . . . . 11 4.9. Probe MTU (Type = 11) (obsolete) . . . . . . . . . . . . . 11 4.10. Reply MTU (Type = 12) (obsolete) . . . . . . . . . . . . . 12 4.11. Traceroute (Type = 82) . . . . . . . . . . . . . . . . . . 13 4.12. DoD Basic Security Option (Type = 130) . . . . . . . . . . 13 4.13. DoD Extended Security Option (Type = 133) . . . . . . . . 15 4.14. Commercial IP Security Option (CIPSO) (Type = 134) . . . . 16 4.15. Sender Directed Multi-Destination Delivery (Type = 149) . 17 4.16. Quick-Start (Type = 25) . . . . . . . . . . . . . . . . . 18 4.17. RFC3692-style Experiment (Types = 30, 94, 158, and 222) . 18 4.18. Other IP Options . . . . . . . . . . . . . . . . . . . . . 19 5. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 20 6. Security Considerations . . . . . . . . . . . . . . . . . . . 20 7. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . . 20 8. References . . . . . . . . . . . . . . . . . . . . . . . . . . 20 8.1. Normative References . . . . . . . . . . . . . . . . . . . 20 8.2. Informative References . . . . . . . . . . . . . . . . . . 21 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 23 Gont, et al. Expires August 20, 2012 [Page 2] Internet-Draft Filtering of IP-optioned packets February 2012 1. Introduction This document document discusses the filtering of IPv4 packets based on the IPv4 options they contain. Since various protocols may use IPv4 options to some extent, the filtering of packets based on the options they contain may have implications on the proper functioning of the protocol. Therefore, this document attempts to discuss the operational and interoperability implications of such filtering. Additionally, it outlines what a network operator might do in a typical enterprise or Service Provider environments. We note that data seems to indicate that there is a current widespread practice of blocking IPv4 optioned packets. There are various plausible approaches to minimize the potential negative effects of IPv4 optioned packets while allowing some options semantics. One approach is to allow for specific options that are expected or needed, and a default deny. A different approach is to deny unneeded options and a default allow. Yet a third possible approach is to allow for end-to-end semantics by ignoring options and treating packets as un-optioned while in transit. Experiments and currently-available data tends to support the first or third approaches as more realistic. Some results of regarding the current state of affairs with respect to filtering of packets containing IP options can be found in [MEDINA]. We also note that while this document provides advice on filtering packets on a "per IP option type", not all devices may provide filtering capabilities with such granularity. Additionally, even in cases in which such functionality is provided, the operator might want to specify a filtering policy with a coarser granularity (rather than on a "per IP option type" granularity), as indicated above. Finally, in scenarios in which processing of IP options by intermediate systems is not required, a widespread approach is to simply ignore IP options, and process the corresponding packets as if they do not contain any IP options. 1.1. Terminology and Conventions Used in This Document The terms "fast path", "slow path", and associated relative terms ("faster path" and "slower path") are loosely defined as in Section 2 of [RFC6398]. The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in [RFC2119]. Gont, et al. Expires August 20, 2012 [Page 3] Internet-Draft Filtering of IP-optioned packets February 2012 2. IP Options IP options allow for the extension of the Internet Protocol There are two cases for the format of an option: o Case 1: A single byte of option-type. o Case 2: An option-type byte, an option-length byte, and the actual option-data bytes. In the Case 2, the option-length byte counts the option-type byte and the option-length byte, as well as the actual option-data bytes. All current and future options except "End of Option List" (Type = 0) and "No Operation" (Type = 1), are of Class 2. The option-type has three fields: o 1 bit: copied flag. o 2 bits: option class. o 5 bits: option number. The copied flag indicates whether this option should be copied to all fragments in the event the packet carrying it needs to be fragmented: o 0 = not copied. o 1 = copied. The values for the option class are: o 0 = control. o 1 = reserved for future use. o 2 = debugging and measurement. o 3 = reserved for future use. This format allows for the creation of new options for the extension of the Internet Protocol (IP). Finally, the option number identifies the syntax of the rest of the option. Gont, et al. Expires August 20, 2012 [Page 4] Internet-Draft Filtering of IP-optioned packets February 2012 The "IP OPTION NUMBERS" registry [IANA-IP] contains the list of the currently assigned IP option numbers. 3. General Security Implications of IP options 3.1. Processing Requirements Router architectures can perform IP option processing in a slower path. Unless protective measures are taken, this represents a potential Denial of Service (DoS) risk, as there is possibility for the option processing to overwhelm the router's CPU or the protocols processed in the router's slow path. Additional considerations for protecting the router control plane from IP optioned packets can be found in [RFC6192]. 4. Advice on the Handling of Packets with Specific IP Options The following subsections contain a description of each of the IP options that have so far been specified, a discussion of possible interoperability implications if packets containing such options are filtered, and specific advice on whether to filter packets containing these options in a typical enterprise or Service Provider environment. 4.1. End of Option List (Type = 0) 4.1.1. Uses This option is used to indicate the "end of options" in those cases in which the end of options would not coincide with the end of the Internet Protocol Header. 4.1.2. Option Specification Specified in RFC 791 [RFC0791]. 4.1.3. Threats No security issues are known for this option, other than the general security implications of IP options discussed in Section 3. 4.1.4. Operational and Interoperability Impact if Blocked Packets containing any IP options are likely to include an End of Option List. Therefore, if packets containing this option are filtered, it is very likely that legitimate traffic is filtered. Gont, et al. Expires August 20, 2012 [Page 5] Internet-Draft Filtering of IP-optioned packets February 2012 4.1.5. Advice Do not filter packets containing this option. 4.2. No Operation (Type = 1) 4.2.1. Uses The no-operation option is basically meant to allow the sending system to align subsequent options in, for example, 32-bit boundaries. 4.2.2. Option Specification Specified in RFC 791 [RFC0791]. 4.2.3. Threats No security issues are known for this option, other than the general security implications of IP options discussed in Section 3. 4.2.4. Operational and Interoperability Impact if Blocked Packets containing any IP options are likely to include a No Operation option. Therefore, if packets containing this option are filtered, it is very likely that legitimate traffic is filtered. 4.2.5. Advice Do not filter packets containing this option. 4.3. Loose Source and Record Route (LSRR) (Type = 131) RFC 791 states that this option should appear, at most, once in a given packet. Thus, if a packet contains more than one LSRR option, it should be dropped, and this event should be logged (e.g., a counter could be incremented to reflect the packet drop). Additionally, packets containing a combination of LSRR and SSRR options should be dropped, and this event should be logged (e.g., a counter could be incremented to reflect the packet drop). 4.3.1. Uses This option lets the originating system specify a number of intermediate systems a packet must pass through to get to the destination host. Additionally, the route followed by the packet is recorded in the option. The receiving host (end-system) must use the reverse of the path contained in the received LSRR option. Gont, et al. Expires August 20, 2012 [Page 6] Internet-Draft Filtering of IP-optioned packets February 2012 The LSSR option can be of help in debugging some network problems. Some ISP (Internet Service Provider) peering agreements require support for this option in the routers within the peer of the ISP. 4.3.2. Option Specification Specified in RFC 791 [RFC0791]. 4.3.3. Threats The LSRR option has well-known security implications. Among other things, the option can be used to: o Bypass firewall rules o Reach otherwise unreachable internet systems o Establish TCP connections in a stealthy way o Learn about the topology of a network o Perform bandwidth-exhaustion attacks Of these attack vectors, the one that has probably received least attention is the use of the LSRR option to perform bandwidth exhaustion attacks. The LSRR option can be used as an amplification method for performing bandwidth-exhaustion attacks, as an attacker could make a packet bounce multiple times between a number of systems by carefully crafting an LSRR option. This is the IPv4-version of the IPv6 amplification attack that was widely publicized in 2007 [Biondi2007]. The only difference is that the maximum length of the IPv4 header (and hence the LSRR option) limits the amplification factor when compared to the IPv6 counter-part. 4.3.4. Operational and Interoperability Impact if Blocked Network troubleshooting techniques that may employ the LSRR option (such as ping or traceroute) would break. Nevertheless, it should be noted that it is virtually impossible to use such techniques due to widespread filtering of the LSRR option. 4.3.5. Advice All systems should, by default, drop IP packets that contain an LSRR option. Gont, et al. Expires August 20, 2012 [Page 7] Internet-Draft Filtering of IP-optioned packets February 2012 4.4. Strict Source and Record Route (SSRR) (Type = 137) 4.4.1. Uses This option allows the originating system to specify a number of intermediate systems a packet must pass through to get to the destination host. Additionally, the route followed by the packet is recorded in the option, and the destination host (end-system) must use the reverse of the path contained in the received SSRR option. This option is similar to the Loose Source and Record Route (LSRR) option, with the only difference that in the case of SSRR, the route specified in the option is the exact route the packet must take (i.e., no other intervening routers are allowed to be in the route). The SSSR option can be of help in debugging some network problems. Some ISP (Internet Service Provider) peering agreements require support for this option in the routers within the peer of the ISP. 4.4.2. Option Specification Specified in RFC 791 [RFC0791]. 4.4.3. Threats The SSRR option has the same security implications as the LSRR option. Please refer to Section 4.3 for a discussion of such security implications. 4.4.4. Operational and Interoperability Impact if Blocked Network troubleshooting techniques that may employ the SSRR option (such as ping or traceroute) would break. Nevertheless, it should be noted that it is virtually impossible to use such techniques due to widespread filtering of the SSRR option. 4.4.5. Advice All systems should, by default, drop IP packets that contain an SSRR option. 4.5. Record Route (Type = 7) 4.5.1. Uses This option provides a means to record the route that a given packet follows. Gont, et al. Expires August 20, 2012 [Page 8] Internet-Draft Filtering of IP-optioned packets February 2012 4.5.2. Option Specification Specified in RFC 791 [RFC0791]. 4.5.3. Threats This option can be exploited to map the topology of a network. However, the limited space in the IP header limits the usefulness of this option for that purpose. 4.5.4. Operational and Interoperability Impact if Blocked Network troubleshooting techniques that may employ the RR option (such as ping with the RR option) would break. Nevertheless, it should be noted that it is virtually impossible to use such techniques due to widespread filtering of the RR option. 4.5.5. Advice Drop IP packets that contain a Record Route option. 4.6. Stream Identifier (Type = 136) (obsolete) The Stream Identifier option originally provided a means for the 16- bit SATNET stream Identifier to be carried through networks that did not support the stream concept. However, as stated by Section 3.2.1.8 of RFC 1122 [RFC1122] and Section 4.2.2.1 of RFC 1812 [RFC1812], this option is obsolete. Therefore, it must be ignored by the processing systems. See also Section 5. RFC 791 states that this option appears at most once in a given datagram. Therefore, if a packet contains more than one instance of this option, it should be dropped, and this event should be logged (e.g., a counter could be incremented to reflect the packet drop). 4.6.1. Uses This option is obsolete. There is no current use for this option. 4.6.2. Option Specification Specified in RFC 791 [RFC0791], and obsoleted in RFC 1122 [RFC1122] and RFC 1812 [RFC1812]. Gont, et al. Expires August 20, 2012 [Page 9] Internet-Draft Filtering of IP-optioned packets February 2012 4.6.3. Threats No security issues are known for this option, other than the general security implications of IP options discussed in Section 3. 4.6.4. Operational and Interoperability Impact if Blocked None. 4.6.5. Advice Filter IP packets that contain a Stream Identifier option. 4.7. Internet Timestamp (Type = 68) 4.7.1. Uses This option provides a means for recording the time at which each system processed this datagram. 4.7.2. Option Specification Specified by RFC 791 [RFC0791]. 4.7.3. Threats The timestamp option has a number of security implications. Among them are: o It allows an attacker to obtain the current time of the systems that process the packet, which the attacker may find useful in a number of scenarios. o It may be used to map the network topology, in a similar way to the IP Record Route option. o It may be used to fingerprint the operating system in use by a system processing the datagram. o It may be used to fingerprint physical devices, by analyzing the clock skew. [Kohno2005] describes a technique for fingerprinting devices by measuring the clock skew. It exploits, among other things, the timestamps that can be obtained by means of the ICMP timestamp request messages [RFC0791]. However, the same fingerprinting method could be implemented with the aid of the Internet Timestamp option. Gont, et al. Expires August 20, 2012 [Page 10] Internet-Draft Filtering of IP-optioned packets February 2012 4.7.4. Operational and Interoperability Impact if Blocked No security issues are known for this option, other than the general security implications of IP options discussed in Section 3. 4.7.5. Advice Filter IP packets that contain an Internet Timestamp option. 4.8. Router Alert (Type = 148) 4.8.1. Uses The Router Alert option has the semantic "routers should examine this packet more closely, if they participate in the functionality denoted by the Value of the option". 4.8.2. Option Specification The Router Alert option is defined in RFC 2113 [RFC2113] and later updates to it have been clarified by RFC 5350 [RFC5350]. It contains a 16-bit Value governed by an IANA registry (see [RFC5350]). 4.8.3. Threats The security implications of the Router Alert option have been discussed in detail in [RFC6398]. Basically, the Router Alert option might be exploited to perform a Denial of Service (DoS) attack by exhausting CPU resources at the processing routers. 4.8.4. Operational and Interoperability Impact if Blocked Applications that employ the Router Alert option (such as RSVP [RFC2205]) would break. 4.8.5. Advice This option should be allowed only on controlled environments, where the option can be used safely ([RFC6398] identifies such environments). In other environments, packets containing this option should be dropped. 4.9. Probe MTU (Type = 11) (obsolete) 4.9.1. Uses This option originally provided a mechanism to discover the Path-MTU. It has been declared obsolete. Gont, et al. Expires August 20, 2012 [Page 11] Internet-Draft Filtering of IP-optioned packets February 2012 4.9.2. Option Specification This option was originally defined in RFC 1063 [RFC1063], and was obsoleted with RFC 1191 [RFC1191]. This option is now obsolete, as RFC 1191 obsoletes RFC 1063 without using IP options. 4.9.3. Threats No security issues are known for this option, other than the general security implications of IP options discussed in Section 3. 4.9.4. Operational and Interoperability Impact if Blocked None 4.9.5. Advice Filter IP packets that contain a Probe MTU option. 4.10. Reply MTU (Type = 12) (obsolete) 4.10.1. Uses This option and originally provided a mechanism to discover the Path- MTU. It is now obsolete. 4.10.2. Option Specification This option was originally defined in RFC 1063 [RFC1063], and was obsoleted with RFC 1191 [RFC1191]. This option is now obsolete, as RFC 1191 obsoletes RFC 1063 without using IP options. 4.10.3. Threats No security issues are known for this option, other than the general security implications of IP options discussed in Section 3. 4.10.4. Operational and Interoperability Impact if Blocked None 4.10.5. Advice Filter IP packets that contain a Reply MTU option. Gont, et al. Expires August 20, 2012 [Page 12] Internet-Draft Filtering of IP-optioned packets February 2012 4.11. Traceroute (Type = 82) 4.11.1. Uses This option originally provided a mechanism to trace the path to a host. 4.11.2. Option Specification This option was originally specified by RFC 1393 [RFC1393]. The Traceroute option is defined as "experimental" and it was never deployed on the public Internet. 4.11.3. Threats No security issues are known for this option, other than the general security implications of IP options discussed in Section 3. 4.11.4. Operational and Interoperability Impact if Blocked None 4.11.5. Advice Filter IP packets that contain a Traceroute option. 4.12. DoD Basic Security Option (Type = 130) 4.12.1. Uses This option is used by Multi-Level-Secure (MLS) end-systems and intermediate systems in specific environments to [RFC1108]: o Transmit from source to destination in a network standard representation the common security labels required by computer security models [Landwehr81], o Validate the datagram as appropriate for transmission from the source and delivery to the destination, and, o Ensure that the route taken by the datagram is protected to the level required by all protection authorities indicated on the datagram. The DoD Basic Security Option (BSO) is currently implemented in a number of operating systems (e.g., [IRIX2008], [SELinux2008], [Solaris2008], and [Cisco-IPSO]), and deployed in a number of high- security networks. These networks are typically either in physically Gont, et al. Expires August 20, 2012 [Page 13] Internet-Draft Filtering of IP-optioned packets February 2012 secure locations, protected by military/governmental communications security equipment, or both. Such networks are typically built using commercial off-the-shelf (COTS) IP routers and Ethernet switches, but are not normally interconnected with the global public Internet. This option probably has more deployment now than when the IESG removed this option from the IETF standards-track. [RFC5570] describes a similar option recently defined for IPv6 and has much more detailed explanations of how sensitivity label options are used in real-world deployments. 4.12.2. Option Specification It is specified by RFC 1108 [RFC1108]. RFC 791 [RFC0791] defined the "Security Option" (Type = 130), which used the same option type as the DoD Basic Security option discussed in this section. Later, RFC 1038 [RFC1038] revised the IP security options, and in turn was obsoleted by RFC 1108 [RFC1108]. The "Security Option" specified in RFC 791 is considered obsolete by Section 3.2.1.8 of RFC 1122 [RFC1122] and Section 4.2.2.1 of RFC 1812 [RFC1812], and therefore the discussion in this section is focused on the DoD Basic Security option specified by RFC 1108 [RFC1108]. Section 4.2.2.1 of RFC 1812 states that routers "SHOULD implement this option". Many Cisco routers that run Cisco IOS include support for per- interface packet filtering of IP packets containing this option. This capability has been present in many Cisco routers since the early 1990s [Cisco-IPSO-Cmds]. Some governmental products reportedly support IPSO, notably CANEWARE [RFC4949]. Support for IPSO is included in the "IPsec Configuration Policy Information Model" [RFC3585] and in the "IPsec Security Policy Database Configuration MIB" [RFC4807]. 4.12.3. Threats Presence of this option in a packet does not by itself create any specific new threat (other than the usual generic issues that might be created if packets with options are forwarded via the "slow path"). Packets with this option ought not normally be seen on the global public Internet. 4.12.4. Operational and Interoperability Impact if Blocked If packets with this option are blocked or if the option is stripped from the packet during transmission from source to destination, then Gont, et al. Expires August 20, 2012 [Page 14] Internet-Draft Filtering of IP-optioned packets February 2012 the packet itself is likely to be dropped by the receiver because it isn't properly labelled. In some cases, the receiver might receive the packet but associate an incorrect sensitivity label with the received data from the packet whose BSO was stripped by an intermediate router or firewall. Associating an incorrect sensitivity label can cause the received information either to be handled as more sensitive than it really is ("upgrading") or as less sensitive than it really is ("downgrading"), either of which is problematic. 4.12.5. Advice Routers and firewalls ought not by default drop packets containing IPSO and also ought not by default strip the IPSO from the packet. For auditing reasons, routers and firewalls SHOULD be capable of logging the numbers of packets containing the BSO on a per-interface basis. Also, routers and firewalls SHOULD be capable of filtering packets based on the BSO presence as well as the BSO values. 4.13. DoD Extended Security Option (Type = 133) 4.13.1. Uses This option permits additional security labeling information, beyond that present in the Basic Security Option (Section 4.12), to be supplied in an IP datagram to meet the needs of registered authorities. 4.13.2. Option Specification The DoD Extended Security Option (ESO) is specified by RFC 1108 [RFC1108]. Many Cisco routers that run Cisco IOS include support for per- interface packet filtering of IP packets containing this option. This capability has been present in many Cisco routers since the early 1990s [Cisco-IPSO-Cmds]. Some governmental products reportedly support IPSO, notably CANEWARE [RFC4949]. Support for IPSO is included in the "IPsec Configuration Policy Information Model" [RFC3585] and in the "IPsec Security Policy Database Configuration MIB" [RFC4807]. 4.13.3. Threats Presence of this option in a packet does not by itself create any specific new threat (other than the usual generic issues that might be created if packets with options are forwarded via the "slow path"). Packets with this option ought not normally be seen on the Gont, et al. Expires August 20, 2012 [Page 15] Internet-Draft Filtering of IP-optioned packets February 2012 global public Internet 4.13.4. Operational and Interoperability Impact if Blocked If packets with this option are blocked or if the option is stripped from the packet during transmission from source to destination, then the packet itself is likely to be dropped by the receiver because it isn't properly labelled. In some cases, the receiver might receive the packet but associate an incorrect sensitivity label with the received data from the packet whose ESO was stripped by an intermediate router or firewall. Associating an incorrect sensitivity label can cause the received information either to be handled as more sensitive than it really is ("upgrading") or as less sensitive than it really is ("downgrading"), either of which is problematic. 4.13.5. Advice Routers and firewalls ought not by default drop packets containing an ESO and also ought not by default strip the ESO from the packet. For auditing reasons, routers and firewalls SHOULD be capable of logging the numbers of packets containing the ESO on a per-interface basis. Also, routers and firewalls SHOULD be capable of filtering packets based on the ESO presence as well as the ESO values. 4.14. Commercial IP Security Option (CIPSO) (Type = 134) 4.14.1. Uses This option was proposed by the Trusted Systems Interoperability Group (TSIG), with the intent of meeting trusted networking requirements for the commercial trusted systems market place. It is currently implemented in a number of operating systems (e.g., IRIX [IRIX2008], Security-Enhanced Linux [SELinux2008], and Solaris [Solaris2008]), and deployed in a number of high-security networks. 4.14.2. Option Specification This option is specified in [CIPSO1992] and [FIPS1994]. There are zero known IP router implementations of CIPSO. Several MLS operating systems support CIPSO, generally the same MLS operating systems that support IPSO. 4.14.3. Threats Presence of this option in a packet does not by itself create any specific new threat (other than the usual generic issues that might Gont, et al. Expires August 20, 2012 [Page 16] Internet-Draft Filtering of IP-optioned packets February 2012 be created if packets with options are forwarded via the "slow path"). Packets with this option ought not normally be seen on the global public Internet. 4.14.4. Operational and Interoperability Impact if Blocked If packets with this option are blocked or if the option is stripped from the packet during transmission from source to destination, then the packet itself is likely to be dropped by the receiver because it isn't properly labelled. In some cases, the receiver might receive the packet but associate an incorrect sensitivity label with the received data from the packet whose CIPSO was stripped by an intermediate router or firewall. Associating an incorrect sensitivity label can cause the received information either to be handled as more sensitive than it really is ("upgrading") or as less sensitive than it really is ("downgrading"), either of which is problematic. 4.14.5. Advice Because of the design of this option, with variable syntax and variable length, it is not practical to support specialized filtering using the CIPSO information. No routers or firewalls are known to support this option. However, by default a router or firewall should not modify or remove this option from IP packets and a router or firewall should not by default drop packets containing this option. 4.15. Sender Directed Multi-Destination Delivery (Type = 149) 4.15.1. Uses This option originally provided unreliable UDP delivery to a set of addresses included in the option. 4.15.2. Option Specification This option is defined in RFC 1770 [RFC1770]. 4.15.3. Threats This option could have been exploited for bandwidth-amplification in Denial of Service (DoS) attacks. 4.15.4. Operational and Interoperability Impact if Blocked None. Gont, et al. Expires August 20, 2012 [Page 17] Internet-Draft Filtering of IP-optioned packets February 2012 4.15.5. Advice Filter IP packets that contain a Sender Directed Multi-Destination Delivery option. 4.16. Quick-Start (Type = 25) 4.16.1. Uses This IP Option is used in the specification of Quick-Start for TCP and IP. 4.16.2. Option Specification Specified in RFC 4782 [RFC4782] as an Experimental specification. 4.16.3. Threats TBD 4.16.4. Operational and Interoperability Impact if Blocked TBD 4.16.5. Advice TBD 4.17. RFC3692-style Experiment (Types = 30, 94, 158, and 222) Section 2.5 of RFC 4727 [RFC4727] allocates an option number with all defined values of the "copy" and "class" fields for RFC3692-style experiments. This results in four distinct option type codes: 30, 94, 158, and 222. 4.17.1. Uses It is only appropriate to use these values in explicitly-configured experiments; they MUST NOT be shipped as defaults in implementations. 4.17.2. Option Specification Specified in RFC 4727 [RFC4727] in the context of RFC3692-style experiments. Gont, et al. Expires August 20, 2012 [Page 18] Internet-Draft Filtering of IP-optioned packets February 2012 4.17.3. Threats No security issues are known for this option, other than the general security implications of IP options discussed in Section 3. 4.17.4. Operational and Interoperability Impact if Blocked None. 4.17.5. Advice Filter IP packets that contain RFC3692-style Experiment options. 4.18. Other IP Options Unrecognized IP Options are to be ignored. Section 3.2.1.8 of RFC 1122 [RFC1122] and Section 4.2.2.6 of RFC 1812 [RFC1812] specify this behavior as follows: RFC 1122: "The IP and transport layer MUST each interpret those IP options that they understand and silently ignore the others." RFC 1812: "A router MUST ignore IP options which it does not recognize." This document adds that unrecognized IP Options MAY also be logged. A number of additional options are specified in the "IP OPTIONS NUMBERS" IANA registry [IANA-IP]. Specifically: Copy Class Number Value Name Reference ---- ----- ------ ----- ------------------------------- ------------ 0 0 10 10 ZSU - Experimental Measurement [ZSu] 1 2 13 205 FINN - Experimental Flow Control [Finn] 1 0 14 142 VISA - Expermental Access Control [Estrin] 0 0 15 15 ENCODE - ??? [VerSteeg] 1 0 16 144 IMITD - IMI Traffic Descriptor [Lee] 1 0 17 145 EIP - Extended Internet Protocol[RFC1385] 1 0 19 147 ADDEXT - Address Extension [Ullmann IPv7] 1 0 22 150 - Unassigned (Released 18 Oct. 2005) 1 0 23 151 DPS - Dynamic Packet State [Malis] 1 0 24 152 UMP - Upstream Multicast Pkt. [Farinacci] Gont, et al. Expires August 20, 2012 [Page 19] Internet-Draft Filtering of IP-optioned packets February 2012 5. IANA Considerations The "IP OPTION NUMBERS" registry [IANA-IP] contains the list of the currently assigned IP option numbers. This registry also denotes an obsoleted IP Option Number by marking it with a single asterisk ("*"). The Stream Identifier Option (Type = 136) is obsolete (see Section 4.6 and should therefore be marked as such. [[ IANA is requested to mark it as such, please remove this note upon publication. ]] [[ IANA is also requested to fix the "Expermental" typo. ]] 6. Security Considerations This document provides advice on the filtering of IP packets that contain IP options. Filtering of such packets can help to mitigate the security issues that arise from use of different IP options. 7. Acknowledgements The authors would like to thank Donald Smith for providing valuable comments on earlier versions of this document. Part of this document is based on the document "Security Assesment of the Internet Protocol" [CPNI2008] that is the result of a project carried out by Fernando Gont on behalf of UK CPNI (formerly NISCC). Fernando Gont would like to thank UK CPNI (formerly NISCC) for their continued support. 8. References 8.1. Normative References [RFC0791] Postel, J., "Internet Protocol", STD 5, RFC 791, September 1981. [RFC1108] Kent, S., "U.S", RFC 1108, November 1991. [RFC1122] Braden, R., "Requirements for Internet Hosts - Communication Layers", STD 3, RFC 1122, October 1989. [RFC1191] Mogul, J. and S. Deering, "Path MTU discovery", RFC 1191, November 1990. Gont, et al. Expires August 20, 2012 [Page 20] Internet-Draft Filtering of IP-optioned packets February 2012 [RFC1770] Graff, C., "IPv4 Option for Sender Directed Multi- Destination Delivery", RFC 1770, March 1995. [RFC1812] Baker, F., "Requirements for IP Version 4 Routers", RFC 1812, June 1995. [RFC2113] Katz, D., "IP Router Alert Option", RFC 2113, February 1997. [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997. [RFC4727] Fenner, B., "Experimental Values In IPv4, IPv6, ICMPv4, ICMPv6, UDP, and TCP Headers", RFC 4727, November 2006. [RFC4782] Floyd, S., Allman, M., Jain, A., and P. Sarolahti, "Quick- Start for TCP and IP", RFC 4782, January 2007. 8.2. Informative References [Biondi2007] Biondi, P. and A. Ebalard, "IPv6 Routing Header Security", CanSecWest 2007 Security Conference , 2007. [CIPSO1992] CIPSO, "COMMERCIAL IP SECURITY OPTION (CIPSO 2.2)", draft-ietf-cipso-ipsecurity-01 (work in progress), 1992. [CPNI2008] Gont, F., "Security Assessment of the Internet Protocol", , 2008. [Cisco-IPSO] Cisco Systems, Inc., "Cisco IOS Security Configuration Guide, Release 12.2 - Configuring IP Security Options", < http://www.cisco.com/en/US/docs/ios/12_2/security/ configuration/guide/scfipso.html>. [Cisco-IPSO-Cmds] Cisco Systems, Inc., "Cisco IOS Security Command Reference, Release 12.2 - IP Security Options Commands", . [FIPS1994] FIPS, "Standard Security Label for Information Transfer", Federal Information Processing Standards Publication. FIP Gont, et al. Expires August 20, 2012 [Page 21] Internet-Draft Filtering of IP-optioned packets February 2012 PUBS 188, , 1994. [IANA-IP] Internet Assigned Numbers Authority, "IP OPTION NUMBERS", April 2011, . [IRIX2008] IRIX, "IRIX 6.5 trusted_networking(7) manual page", , 2008. [Kohno2005] Kohno, T., Broido, A., and kc. Claffy, "Remote Physical Device Fingerprinting", IEEE Transactions on Dependable and Secure Computing Vol. 2, No. 2, 2005. [Landwehr81] Landwehr, C., "Formal Models for Computer Security", ACM Computing Surveys Vol 13, No 3, September 1981, Assoc for Computing Machinery, New York, NY, USA, 1981. [MEDINA] Medina, A., Allman, M., and S. Floyd, "Measuring Interactions Between Transport Protocols and Middleboxes", Proc. 4th ACM SIGCOMM/USENIX Conference on Internet Measurement, October 2004. [RFC1038] St. Johns, M., "Draft revised IP security option", RFC 1038, January 1988. [RFC1063] Mogul, J., Kent, C., Partridge, C., and K. McCloghrie, "IP MTU discovery options", RFC 1063, July 1988. [RFC1393] Malkin, G., "Traceroute Using an IP Option", RFC 1393, January 1993. [RFC2205] Braden, B., Zhang, L., Berson, S., Herzog, S., and S. Jamin, "Resource ReSerVation Protocol (RSVP) -- Version 1 Functional Specification", RFC 2205, September 1997. [RFC3585] Jason, J., Rafalow, L., and E. Vyncke, "IPsec Configuration Policy Information Model", RFC 3585, August 2003. [RFC4807] Baer, M., Charlet, R., Hardaker, W., Story, R., and C. Wang, "IPsec Security Policy Database Configuration MIB", RFC 4807, March 2007. Gont, et al. Expires August 20, 2012 [Page 22] Internet-Draft Filtering of IP-optioned packets February 2012 [RFC4949] Shirey, R., "Internet Security Glossary, Version 2", RFC 4949, August 2007. [RFC5350] Manner, J. and A. McDonald, "IANA Considerations for the IPv4 and IPv6 Router Alert Options", RFC 5350, September 2008. [RFC5570] StJohns, M., Atkinson, R., and G. Thomas, "Common Architecture Label IPv6 Security Option (CALIPSO)", RFC 5570, July 2009. [RFC6192] Dugal, D., Pignataro, C., and R. Dunn, "Protecting the Router Control Plane", RFC 6192, March 2011. [RFC6398] Le Faucheur, F., "IP Router Alert Considerations and Usage", BCP 168, RFC 6398, October 2011. [SELinux2008] Security Enhanced Linux, "http://www.nsa.gov/selinux/". [Solaris2008] Solaris Trusted Extensions - Labeled Security for Absolute Protection, "http://www.sun.com/software/solaris/ds/ trusted_extensions.jsp#3", 2008. Authors' Addresses Fernando Gont UTN-FRH / SI6 Networks Evaristo Carriego 2644 Haedo, Provincia de Buenos Aires 1706 Argentina Phone: +54 11 4650 8472 Email: fgont@si6networks.com URI: http://www.si6networks.com RJ Atkinson Consultant McLean, VA 22103 USA Email: rja.lists@gmail.com Gont, et al. Expires August 20, 2012 [Page 23] Internet-Draft Filtering of IP-optioned packets February 2012 Carlos Pignataro Cisco Systems, Inc. 7200-12 Kit Creek Road Research Triangle Park, NC 27709 US Email: cpignata@cisco.com Gont, et al. Expires August 20, 2012 [Page 24]