From 4bfd864f10b68b71482b35c818559068ef8d5797 Mon Sep 17 00:00:00 2001 From: Thomas Voss Date: Wed, 27 Nov 2024 20:54:24 +0100 Subject: doc: Add RFC documents --- doc/rfc/rfc1467.txt | 507 ++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 507 insertions(+) create mode 100644 doc/rfc/rfc1467.txt (limited to 'doc/rfc/rfc1467.txt') diff --git a/doc/rfc/rfc1467.txt b/doc/rfc/rfc1467.txt new file mode 100644 index 0000000..c9e4c94 --- /dev/null +++ b/doc/rfc/rfc1467.txt @@ -0,0 +1,507 @@ + + + + + + +Network Working Group C. Topolcic +Request for Comments: 1467 CNRI +Obsoletes: 1367 August 1993 + + + Status of CIDR Deployment in the Internet + +Status of this Memo + + This memo provides information for the Internet community. It does + not specify an Internet standard. Distribution of this memo is + unlimited. + +Abstract + + This document describes the current status of the development and + deployment of CIDR technology into the Internet. This document + replaces RFC 1367, which was a schedule for the deployment of IP + address space management procedures to support route aggregation. + Since all the milestones proposed in RFC 1367 except for the delivery + and installation of CIDR software were met, it does not seem + appropriate to issue an updated schedule. Rather, this document is + intended to provide information about how this effort is proceeding, + which may be of interest to the community. + +1. Background + + The Internet's exponential growth has led to a number of difficulties + relating to the management of IP network numbers. The administrative + overhead of allocating ever increasing volumes of IP network numbers + for global users has stressed the organizations that perform this + function. The volume of IP network numbers that are reachable + through the Internet has taxed a number of routers' ability to manage + their forwarding tables. The poor utilization of allocated IP + network numbers has threatened to deplete the Class A and Class B + address space. + + During the past few years, a consensus has emerged among the Internet + community in favor of a number of mechanisms to relieve these + problems for the mid-term. These mechanisms are expected to be put + into place in the short term and to provide relief for the mid-term. + Fundamental changes to the Internet protocols to ensure the + Internet's continued long term growth and well being are being + explored and are expected to succeed the mid-term mechanisms. + + The global Internet community have been cooperating closely in such + forums as the IETF and its working groups, the IEPG, the NSF Regional + Techs Meetings, INET, INTEROP, FNC, FEPG, and other assemblies in + + + +Topolcic [Page 1] + +RFC 1467 Status of CIDR Deployment in the Internet August 1993 + + + order to ensure the continued stable operation of the Internet. + Recognizing the need for the mid-term mechanisms and receiving + support from the Internet community, the US Federal Agencies proposed + procedures to assist the deployment of these mid-term mechanisms. + These procedures were originally described in RFC 1366 [1], which was + recently made obsolete by RFC 1466 [2]. In October 1992, a schedule + was proposed for the implementation of the procedures, described in + RFC 1367 [3]. + +2. Milestones that have been met + + Most of the milestones of the proposed schedule were implemented on + time. These milestones are shown below, essentially as they appear in + [3], but with further comment where appropriate: + + 1) 31 October 92: + + The following address allocation procedures were continued: + + a) Initial set of criteria for selecting regional address + registries were put into place, and requests from + prospective regional registries were accepted by the + IANA. + + The Reseaux IP Europeens Network Coordination Centre + (RIPE NCC) requested to become a regional registry. + As per the addressing plan of RFC 1366, the RIPE NCC + was given the block 194.0.0.0 to 195.255.255.255 to + administer for the European Internet community. The RIPE + NCC had previously and independently obtained the block + 193.0.0.0 to 193.255.255.255. Although this block had been + allocated before RFC 1366, the RIPE NCC was able to manage + it according to the guidelines in RFC 1366. + + b) Class A network numbers were put on reserve for possible + future use. The unreserved Class A numbers became very + difficult to obtain. + + c) Class B network numbers were issued only when + reasonably justified. Whenever possible, a block of C's + was issued rather than a B. The requirements for + allocating a Class B became progressively more constrained + until the date in step (3). + + + + + + + + +Topolcic [Page 2] + +RFC 1467 Status of CIDR Deployment in the Internet August 1993 + + + d) Class C network numbers were allocated according to the + addressing plan of [1], now obsoleted by [2]. Allocation + continued to be performed by the Internet Registry (IR) + for regions of the world where an appropriate regional + registry had not yet been designated by the IANA. + + 2) 14 February 93: + + The schedule in [3] was re-evaluated, and there appeared to + be no reason to readjust it, so it was continued as + originally set out. + + 3) 15 April 93: + + a) The IR began to allocate all networks according to the + addressing plan of [1], now obsoleted by [2], in + appropriately sized blocks of Class C numbers. + + b) Class B network numbers became difficult to obtain, + following the recommendation of the addressing plan and + were only issued when justified. + + Furthermore, throughout this time period, network service providers + have requested blocks of network numbers from the Class C address + space for the purpose of further allocating them to their clients. + The network service providers were allocated such space by the RIPE + NCC or the IR, acting for North America and the Pacific Rim. This + process has started to distribute the function of address + registration to a more regional level, closer to the end users. The + process has operated as hoped for, with no major problems. + +3. Milestone that has not been met + + The proposed schedule of [3] stated that 6 June 1993 was the date + when an address aggregation mechanism would be generally available in + the Internet. Although this target date was based on the plans as + stated by the router vendors and was reasonable at the time the + schedule in [3] was formulated, it has slipped. Nevertheless, the + continuation of that schedule has so far not added significantly to + the problems of the Internet. The rest of this document looks at the + current situation and what can be expected in the near future. + +4. Current status of address aggregation mechanisms in commercial + routers + + Although RFCs 1366, 1466, and 1367 do not depend on any specific + address aggregation technology, there is consensus in the Internet + community to use Classless Inter-Domain Routing (CIDR) [4]. CIDR is + + + +Topolcic [Page 3] + +RFC 1467 Status of CIDR Deployment in the Internet August 1993 + + + supported by BGP-4 and IDRP. Most router vendors are working on BGP- + 4, first, and there is a consensus to use BGP-4 to support the + initial deployment of CIDR in the Internet. + + The following paragraphs describe the implementation status and plans + of software to support CIDR in various router vendors' products, + listed in alphabetical order. Some speculation is necessarily + involved in deriving these projections. See also the minutes of the + July 1993 meeting of the BGP Deployment Working Group of the IETF + [5]. + + 3Com's BGP-4 code has been tested internally. They have code that + accepts, forwards and manages aggregated routes properly, and they + are ready to test it for interoperability with other vendors. They + have yet to implement the code that forms the route aggregates. They + expect to have Beta code done by September, and full release code + shortly thereafter. The initial implementation will not support de- + aggregation. Their plans here are not yet formulated. They will + support de-aggregation if necessary. + + ANS has a BGP-4 implementation that is being tested internally. It + is stable enough to begin testing for interoperability with other + vendors' implementations. Depending of the results of + interoperability testing, this code could be deployed into the ANSNET + by August. This delay is primarily because some routers are running + older code, and they all need to be upgraded to GATED before they can + all support BGP-4 internally. So the ability to support CIDR looks + like it is about one to two months away. This code will not support + controlled de-aggregation, but de-aggregation will be supported if + necessary. + + BBN plans to complete it's development of BGP-4 by early Summer 1994. + Initial plans are to implement both aggregation and controlled de- + aggregation with an early release of the software. + + Cisco's BGP-4 implementation is under development at this time. + There is pre-Beta code available for people to begin testing. It is + expected that the code will be stable sometime during the summer of + 1993 and will be made available for limited deployment at that time. + This BGP-4 code will implement aggregation. It will not be part of + the normal release cycle at this time. It will be available in a + special software release based on the 9.21 release. This initial + BGP-4 code will not implement controlled de-aggregation, but Cisco + plans on implementing de-aggregation. + + Proteon's BGP-4 code has been tested internally. They are ready to + test it for interoperability with other vendors. If this works out + reasonably well, then it is reasonable to expect that they can start + + + +Topolcic [Page 4] + +RFC 1467 Status of CIDR Deployment in the Internet August 1993 + + + to deploy this as Beta code by August, with a target of full release + in the fall. This initial implementation will not support aggregation + or de-aggregation. Aggregation will be implemented soon thereafter, + but their plans for de-aggregation are not yet formulated. They will + implement de-aggregation if necessary. + + Wellfleet is aiming at having beta code implementing BGP-4 roughly in + early 1994. This code will include controlled de-aggregation. + +5. Rate of growth + + MERIT periodically publishes the number of networks in the + NSFNET/ANSNET policy routing database. Analysis of this data + suggests that the number of entries in this database is growing at + approximately 8% per month, or doubling every nine or ten months [6]. + + Although there are currently over 13K networks in the NSFNET/ANSNET + policy routing database, a number of them are not active. That is, + they are not announced to the NSFNET/ANSNET Backbone. The 10K active + network point was passed in late June. Assuming that the number of + active networks continues to grow at the same rate as in the past, it + can be projected that the 12K active network point will be reached + sometime in approximately late September 1993 and that the 25K active + network point will be reached sometime in mid-94 (two high water + marks whose relevance will become apparent below). + + The NSFNET/ANSNET routing database includes only those networks that + meet the NSF Acceptable Use Policy (AUP) or the ANSNET CO+RE AUP. + There are a number of networks connected to the Internet that do not + meet these criteria. Although they are not in the NSFNET/ANSNET + routing database, they are in the forwarding tables of a number of + network providers. Currently, the number of networks that are + connected to other known service providers but are not in the + NSFNET/ANSNET routing database is significantly smaller than (less + than 25% of) the number that are in the NSFNET/ANSNET database. There + is no estimate available for the rate of growth of the number of such + non-NSFNET/ANSNET networks. It is assumed here that the growth rate + of these networks is approximately the same as that of AUP networks + in the NSFNET/ANSNET routing database. + + Analysis of the more than 13K networks in the NSFNET/ANSNET routing + database, as well as the allocated but unconnected networks, suggests + that CIDR deployment should have a significant impact on the number + of forwarding table entries that any router needs to maintain, and + its rate of growth. However, an in-depth study was begun at the July + 1993 meeting of the BGP Deployment Working Group of the IETF [5] to + (among other goals) evaluate the impact of CIDR on the growth rate of + router forwarding tables. + + + +Topolcic [Page 5] + +RFC 1467 Status of CIDR Deployment in the Internet August 1993 + + +6. Capacity of deployed networks + + The following paragraphs describe the current occupancy of the + forwarding tables of the routers of several transit network providers + and their expected capacities and an estimate of the time when that + capacity would be reached if the growth rate were to continue as + today. This list is a subset of all relevant providers, but is + considered approximately representative of the situation of other + network providers. It is shown in alphabetical order. + + ALTERNET nodes are Cisco routers, and currently carry approximately + 11K to 12K routes, both AUP and non-AUP. With their current + configuration, they have enough memory so that they are expected to + support up to approximately 35K routes. If the rate at which the + number of these routes is expected to grow is approximately the same + as the rate that the NSFNET/ANSNET policy routing database is + growing, then this number may be reached in late 1994. However, if + the growth rate continues unchecked, it is expected that the + processing capacity of the routers will be surpassed before their + memory is exhausted. It is expected that CIDR will be in place long + before this point is reached. + + All ANSNET routers have recently been upgraded to AIX 3.2. This + version supports up to 12K networks. These routers currently carry + only the active networks in the NSFNET/ANSNET routing database. It + is anticipated that the next version of router code will be deployed + before September 1993, the projected date for when there will be 12K + active networks. This version will support 25K active networks. + Although there are no current plans for a version of router code that + supports more than 25K networks, it is believed that CIDR will help + this situation. + + EBONE nodes are Cisco routers. They currently carry approximately 10K + to 11K routes. With their current configuration, they may be able to + support approximately 40K routes. However, the number of paths may be + very relevant. The memory required for the BGP table (rather than the + forwarding table) is a function of the number of paths. If a new + transatlantic link were to be added, EBONE could receive all the + North American routes through it. This would add a new set of paths. + Each such transatlantic link would increase the memory required by + approximately 20%. Due to the network topology between North America + and Europe, new transatlantic links tend to result in new paths, and + therefore significant memory requirements. It is very difficult to + predict the addition of future transatlantic links because they + result from business or political requirements, not bandwidth + requirements. + + + + + +Topolcic [Page 6] + +RFC 1467 Status of CIDR Deployment in the Internet August 1993 + + + ESNET uses Cisco routers. However, it is already in trouble, but not + because of the size of the forwarding tables. The problem is its need + to maintain considerable configuration information describing which + networks it should or should not accept from its neighbors, and the + fact that this information must be stored in a non-volatile memory of + limited size. CIDR aggregation is expected to help this problem. + Also, ESNET plans to deploy BGP-4 and CIDR only after it is in a full + release, so does not plan to participate in the initial BGP-4 + deployment. ESNET will upgrade their nodes to Cisco CSC-4's in the + meantime. + + All SPRINTLINK and ICM nodes have recently been upgraded to Cisco + CSC-4 routers with 16MB of memory. They will carry full routing, + including not only the routes that the NSFNET/ANSNET carries, but + also routes to networks that do not comply with the NSF or CO+RE + AUPs. The SPRINT routers currently carry approximately 11K to 12K + routes, and it is expected that they will be able to support up to + approximately 25K routes, as currently configured. The 25K announced + network point may be reached in approximately mid-1994. Again, it is + expected that CIDR deployment will have a significant impact on this + growth rate, well before this time. + +7. Acknowledgements + + This report contains information from a number of sources, including + vendors, operators, researchers, and organizations that foster + cooperation in the Internet community. Specific organizations include + the Intercontinental Engineering and Planning Group (IEPG), the BGP-4 + Deployment Working Group of the IETF, the Federal Networking Council + (FNC), and the FNC Engineering and Planning Group (FEPG). Specific + individuals include, in alphabetical order, Arun Arunkumar, Tony + Bates, Mary Byrne, Bob Collet, Mike Craren, Dennis Ferguson, Tony + Hain, Elise Gerich, Mark Knopper, John Krawczyk, Tony Li, Peter + Lothberg, Andrew Partan, Gary Rucinski, Frank Solensky, and Jessica + Yu. This report would not have been possible without the willingness + of these people to make their information public for the good of the + community. + +8. References + + [1] Gerich, E., "Guidelines for Management of IP Address Space", + RFC 1366, Merit, October 1992. + + [2] Gerich, E., "Guidelines for Management of IP Address Space", + RFC 1466, Merit, May 1993. + + [3] Topolcic, C., "Schedule for IP Address Space Management + Guidelines", RFC 1367, CNRI, October 1992. + + + +Topolcic [Page 7] + +RFC 1467 Status of CIDR Deployment in the Internet August 1993 + + + + [4] Fuller, V. et al, "Classless Inter-Domain Routing (CIDR): an + Address Assignment and Aggregation Strategy", working draft + obsoleting RFC 1338, BARRNet, February 1993. + + [5] Yu, J., "Minutes of the BGP Deployment Working Group + (BGPDEPL)", MERIT, July 1993. + + [6] Solensky, F., Internet Growth Charts, "big-internet" mailing + list, munnari.oz.au:big-internet/nsf-netnumbers-.ps + +9. Other relevant documents + + Huitema, C., "IAB Recommendation for an Intermediate Strategy + to Address the Issue of Scaling", RFC 1481, Internet + Architecture Board, July 1993. + + Knopper, M., "Minutes of the NSFNET Regional Techs Meeting", + working draft, MERIT, June 1993. + + Knopper, M., and Richardson, S., " Aggregation Support in the + NSFNET Policy-Based Routing Database", RFC 1482, MERIT, June + 1993. + + Topolcic, C., "Notes of BGP-4/CIDR Coordination Meeting of 11 + March 93", working draft, CNRI, March 1993. + + Rekhter, Y., and Topolcic, C., "Exchanging Routing Information + Across Provider/Subscriber Boundaries in the CIDR Environment", + working draft, IBM Corp., CNRI, April 1993. + + Rekhter, Y., and Li, T., "An Architecture for IP Address + Allocation with CIDR", working draft, IBM Corp., cisco Systems, + February 1993. + + Gross, P., and P. Almquist, "IESG Deliberations on Routing and + Addressing", RFC 1380, IESG, November 1992. + + + + + + + + + + + + + + +Topolcic [Page 8] + +RFC 1467 Status of CIDR Deployment in the Internet August 1993 + + +10. Security Considerations + + Security issues are not discussed in this memo. + +11. Author's Address + + Claudio Topolcic + Corporation for National Research Initiatives + 895 Preston White Drive, Suite 100 + Reston, VA 22091 + + Phone: (703) 620-8990 + EMail: topolcic@CNRI.Reston.VA.US + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Topolcic [Page 9] + \ No newline at end of file -- cgit v1.2.3