Internet Engineering Task Force (IETF) T. Manderson Request for Comments: 6397 ICANN Category: Standards Track October 2011 ISSN: 2070-1721
Multi-Threaded Routing Toolkit (MRT) Border Gateway Protocol (BGP) Routing Information Export Format with Geo-Location Extensions
Abstract
This document updates the Multi-threaded Routing Toolkit (MRT) export format for Border Gateway Protocol (BGP) routing information by extending it to include optional terrestrial coordinates of a BGP collector and its BGP peers.
Status of This Memo
This is an Internet Standards Track document.
This document is a product of the Internet Engineering Task Force (IETF). It represents the consensus of the IETF community. It has received public review and has been approved for publication by the Internet Engineering Steering Group (IESG). Further information on Internet Standards is available in Section 2 of RFC 5741.
Information about the current status of this document, any errata, and how to provide feedback on it may be obtained at http://www.rfc-editor.org/info/rfc6397.
Copyright Notice
Copyright (c) 2011 IETF Trust and the persons identified as the document authors. All rights reserved.
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RFC 6397 Geo-Location Extensions in MRT October 2011
Researchers and engineers often wish to analyze network behavior by studying routing protocol transactions and routing information base snapshots in relation to geographical topologies. Usually, the Border Gateway Protocol [RFC4271] is the subject of study, and the analysis can be significantly aided by the availability and extension of the "Multi-Threaded Routing Toolkit (MRT) Routing Information Export Format" [RFC6396]. The MRT format was originally defined in the MRT Programmer's Guide [MRT-GUIDE].
The addition of geo-location coordinates (longitude and latitude) pertaining to the geographical location of both the BGP collector and its BGP peers to BGP export data enables a researcher or enquiring individual to gain a terrestrial insight to the routes seen by a BGP speaker. Such data may ultimately aid researchers in understanding any disparity between the geographical location of networks and the topological location of networks in addition to the relationships between geographical position and routing anomalies. Such insight could provide future input into network design and network security.
This memo documents an optional extension to the MRT format [RFC6396] and introduces an additional definition of an MRT Subtype field that includes the terrestrial coordinates of a BGP collector and its BGP peers.
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].
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Coordinates: The geographic latitude and longitude specifying a location on the earth.
BGP Speaker: A network device that exchanges network routing information using BGP.
Geo-location: Assigning a set of coordinates to a specific artifact, in this case a BGP speaker.
BGP Collector: A BGP speaker (usually passive) that stores and archives BGP routing data from active BGP peers for analysis.
BGP Peer: Either an internal or external BGP peer [RFC4271].
Not A Number (NAN): Numeric data type representing an undefined or unrepresentable value, as defined in the IEEE Standard for Floating- Point Arithmetic [IEEE754].
4. Geo-Location-Aware MRT Routing Information Subtype
An additional subtype (GEO_PEER_TABLE) is defined for the TABLE_DUMP_V2 format, extending TABLE_DUMP_V2 Type.
The GEO_PEER_TABLE Subtype updates the TABLE_DUMP_V2 Types to include geo-location information in the form of the World Geodetic System 1984 (WGS84) [WGS-84] formatted coordinates.
The document adds the 7th subtype number and name below. The first 6 subtypes are defined by the MRT format [RFC6396].
Subtype Number Subtype Name ---------------------------------- 7 GEO_PEER_TABLE
The GEO_PEER_TABLE MRT record provides the BGP ID of the collector, its latitude and longitude in WGS84 [WGS-84] format, and a list of indexed peers and their respective latitudes and longitudes in WGS84 [WGS-84] format.
The format and function of the Collector BGP ID and Peer Count are as defined by the TABLE_DUMP_V2, PEER_INDEX_TABLE format [RFC6396].
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The Collector Latitude and Collector Longitude are the geographical coordinates of the collector in WGS84 [WGS-84] datum decimal degrees format stored as a single precision float in the 32 bits allocated to the Collector Latitude and Collector Longitude. The latitude and longitude MAY be a Not A Number (NAN) [IEEE754] for situations where the geo-location of the collector is considered private. The Collector Latitude and Collector Longitude MUST NOT be a mix of WGS84 [WGS-84] datum coordinates and NAN values.
The format of the Peer Entries is shown below. The Peer Type and the Peer BGP ID are as defined in the TABLE_DUMP_V2 MRT, PEER_INDEX_TABLE format [RFC6396]. The order of the Peer Entries in the GEO_PEER_TABLE MUST match the order and number as existing in the PEER_INDEX_TABLE.
The Peer Latitude and Peer Longitude are the geographical coordinates of the peer in WGS84 [WGS-84] datum decimal degrees format stored as a single precision float in the 32 bits allocated to the Peer Latitude and Peer Longitude. The latitude and longitude MAY be a Not A Number (NAN) [IEEE754] for situations where the geo-location of the
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peer is considered private. The Peer Latitude and Peer Longitude MUST NOT be a mix of WGS84 [WGS-84] datum coordinates and NAN values for a single peer.
This section aids the reader in understanding the function of a BGP collector.
The BGP collector is a hardware- or software-based device that speaks the Border Gateway Protocol. Its intended function is to store (and archive) the BGP routing data it receives from other BGP speakers with which it has peering relationships, providing data for later analysis. The general nature of a BGP collector is that it is a passive device in that it listens to route updates and does not announce or propagate any information it knows or receives. It should be noted that this is not always the case; network operators sometimes enable the collection of BGP routing data on active BGP speakers to obtain a situational view of the routing system as they see it at a particular point in time.
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As a fully fledged BGP speaker, the BGP collector can fit into any BGP topology including Internal BGP (iBGP), External BGP (eBGP), and so on. The implementation of a BGP collector in a network topology is therefore limited by that network's use of BGP.
The GEOPRIV [RFC6280] architecture requires that privacy rules attached to a location object be transmitted alongside the location information in the object. If a BGP collector adds location coordinates to an MRT record based on GEOPRIV location objects, then it would have to include privacy rules as well. Since the MRT geo- location format does not support the provision of privacy rules, each location entry in an MRT object is assigned the following default privacy rules [RFC4119]:
-- retransmission-allowed: True -- retention-expires: 100 years from timestamp of the MRT object -- ruleset-reference: Empty -- note-well: Empty
Location information derived from a location object with more restrictive privacy rules MUST NOT be included in an MRT geo-location record unless there are non-technical measures in place that enforce and communicate the constraints on the use of the location information in the MRT geo-location format (e.g., contractual agreements between peers).
This extension to the MRT format [RFC6396] defines fields that are of a descriptive nature and provides information that is useful in the analysis of routing systems. As such, the author believes that they do not constitute an additional network-based security risk. It is recommended that the operators of the BGP collector and BGP peers consider their own privacy and security concerns before supplying geographical coordinates to BGP data collection systems. Special attention should be given to the physical security of an organization before supplying geographical coordinates, especially if the resulting BGP data with geo-location extensions is made public.
Entities that operate BGP collectors, and users of data provided by BGP collectors, should be aware that the geo-location data supplied by a peer can only be taken at face value. It is possible that a BGP peer may supply coordinates that are purposefully misleading or inaccurate. It is therefore up to the BGP collector whether or not to include this information or use its own methods to either trust or validate the data provided. It is not recommended that a BGP collector use geographical coordinates not supplied by a BGP peer.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997.
[RFC4119] Peterson, J., "A Presence-based GEOPRIV Location Object Format", RFC 4119, December 2005.
[RFC4271] Rekhter, Y., Li, T., and S. Hares, "A Border Gateway Protocol 4 (BGP-4)", RFC 4271, January 2006.
[RFC6280] Barnes, R., Lepinski, M., Cooper, A., Morris, J., Tschofenig, H., and H. Schulzrinne, "An Architecture for Location and Location Privacy in Internet Applications", BCP 160, RFC 6280, July 2011.
[RFC6396] Blunk, L., Karir, M., and C. Labovitz, "Multi-Threaded Routing Toolkit (MRT) Routing Information Export Format", RFC 6396, October 2011.
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[WGS-84] Geodesy and Geophysics Department, DoD., "World Geodetic System 1984", January 2000, <http://earth-info.nga.mil/ GandG/publications/tr8350.2/wgs84fin.pdf>.