Here is the proposal for the CLNS routing domain object for the RIPE datase as will be presented next tuesday during the DB workgroup meeting. This version is almost similar as the one presented at a previous RIPE meeting. The main differences are a new attribute "dom-name", an introduction describing shortly why such an object is desired and an appendix that gives a very short comment on the breakdown of NSAP's for some commonly used AFI's. - Henk Steenman SARA, NIC --------------------- CUT HERE --------------------------------------------- CLNS routing-domain object for the RIPE database Version 1.2 Jan 1994 Henk Steenman Henk_Steenman@sara.nl +31 20 5928038 CLNS routing-domain object Page 2 Introduction. ____________ In the RARE lower layer technology work group for CLNS it was recognised that in order to coordinate routing between CLNS routing domains a central registry for such domains was necessary. At a meeting of the work group at the 27 IETF in Amsterdam it was decided to write a registry specification. At this meeting the RIPE NCC offered to extend their database for IP domains/networks with CLNS related objects if a sound proposal came forward. Below a description of a database object for CLNS routing domains is defined. The object can be used to describe some general information of a CLNS routing domain such as NSAP prefix, name, description and responsible persons. It can also be used to describe routing policies in a manner comparable to that for IP domains ( AS's ) as defined in the paper RIPE 81 [1]. The attributes describing routing policy are intended to be set-up such that routing tables for static inter-domain routing can be derived from them or excisting routing can be checked against the described policy. It is desired that tools are made to serve these tasks. It is understood that the object as described below is subject to change when CLNS routing developes. An example of this could be the future availability of IDRP for dynamic inter-domain routing. In an appendix, some generally used combinations of the Authority and Format Identifier (AFI) and the Initial Domain Identifier (IDI) are shown. CLNS routing-domain object Page 3 Object Description _________________ dom-prefix: Defines an unique routing domain, characterised by a NSAP prefix , within a certain prefix hierarchy. Example: dom-prefix: 39528f1100 dom-name: String representing the routing domain. Format: Text string. Example: dom-name: SURFnet-CLNS descr: Description of the organisation and place of its location Format is equal to the descr attribute as defined for IP autonomous systems in [1]. bis: Format : < bis NET > < dom-prefix > NET of boundary intermediate system to between two domains Example: SURFnet BIS for EuropaNet bis: 39528f1100100020000000000100000c0429b400 39528f1103 CLNS routing-domain object Page 4 dom-in: Description of accepted routing domain prefixes, from other domain BIS. Analogue to "as-in" in [1]. Format:< dom-prefix > < cost> <routing policy expression > For every BIS you peer with, there should be such an entry <dom-prefix> is the routing domain prefix where the BIS you peer with belongs to. <cost> is a relative cost to discriminate between different routes to the same domain. The lowest cost gives the most preferred route. <routing policy expression > can be expressed in the following way's 1: list of "dom-prefixes" Example: dom-in: 39528f1103 100 39124F 470005 2: KEYWORD Only one keyword for the moment ANY - accept everything you get announced. 3: A logical expression of 1 and/or 2. The following operators should be defined AND OR NOT Parenthesis are used to group rules. Example: dom-in: 39528f1103 ANY AND NOT 39756f Accept all announcements from EMPB BIS except for the Switzerland routing domain. CLNS routing-domain object Page 5 dom-out: Routing domain prefixes announced to other BIS'. Analogue to the "as-out' tag in [1]. Format : < dom-prefix > <routing policy expression > <dom-prefix> is the routing domain prefix where the BIS you peer with belongs to. <routing policy expression > As defined with the dom-in tag. Example: dom-out: 39528f1103 39528f1100 AND NOT 39528f1100000910 Advertise to Europanet the SURFnet-CLNS routing domain but not the PTT-Research routing domain. default: Indication how default routing is done default: < dom-prefix> <cost> <dom-prefix> again is the prefix of the domain where the BIS peer is in. <cost> indicates which default path is preferred. In a static routing environment this doesn't make sense. Example: default: 39528f1103 10 Default everything is routed to 39528f1103 CLNS routing-domain object Page 6 admin-c: Administrative contact. Format equal to admin-c in [1]. tech-c: Technical contact Format equal to tech-c in [1]. guardian: e-mail and/or postal address of domain guardian. Analogue to AS guardian in [1]. source: Source of the information. Equal to source field in [1]. remark: remarks or comments Equal to remark field in [1] changed: Who and when of last change. Equal to change field in [1]. CLNS routing-domain object Page 7 Example: _________ dom-prefix: 39528f1100 descr: SURFnet-CLNS domain. bis: 39528f1100100020000000000100000c0429b400 39528f1103 dom-in: 39528f1103 100 ANY AND NOT 39528f1100000910 dom-in: 39528f1100000910 100 39528f1100000910 dom-out: 39528f1103 39528f1100 AND NOT 39528f1100000910 dom-out: 39528f1100000910 39528f1100 default: 39528f1103 10 admin-c: Victor Reijs tech-c: Henk Steenman guardian: domain-guardian@surfnet.nl source: RIPE changed: henk@sara.nl 930716 SURFnet accepts from EMPB ( 39528f1103 ) all prefixes but one, 39528f1100000910, which is PTT-research that is connected to both EMPB and SURFnet. From PTT-research SURFnet only accepts the PTT-research prefix. SURFnet announces to EMPB, 39528f1100 but not 39528f1100000910. To PTT-research only 39528f1100 is announced. Translated to static routing; on the SURFnet BIS connected to PTT- research, there is a static route to 39528f1100000910. And on the SURFnet BIS connected to EMPB there is a static route to all other know prefixes. On both the PTT-reserach and EMPB BIS's connected to SURFnet there is a static route to 39528f1100. ^L ^L CLNS routing-domain object Page 8 Appendix A. ___________ Definition of NSAP structure is defined in OSI 8348 Ad2 [2]. In general: NSAP's are always an integer number of octets where the AFI is always one octet and the IDI is always an integer number of octets. NSAP's are hierarchical structured and once the AFI is decided upon, structuring of the rest of the NSAP is up to authorities down the tree. Two common AFI are 47 and 39 and can be described by some general rules. AFI: 39 Describes that the following two octets are the ISO DCC country codes. Since these codes are always described by three digits, padding with an "f" is necessary to complete the 2 octets. Further structure is done by the authority for each country and there is no general rule. AFI: 47 IDI: 4 defines OSINET. Followed by a two byte organisation identifier. IDI: 5 defines US-GOSIP Version 1 defines a two byte organisation identifier. Version 2 defines a one byte data format identifier, a two byte zero field a three byte administrative authority a two byte routing domain id. ^L ^L CLNS routing-domain object Page 9 References __________ [1] : RIPE-81, Representation of IP routing Policies in the RIPE database, Tony Bates, Jean-Michel Jouanigot, Daniel Karrenberg, Peter Lothberg and Marten Terpstra, Feb. 1993 [2] : Network Services Definition, Addendum 2, covering Network Layer Addressing.