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Introduction

Abstract

This document describes the

procedures for the delegation of authority of zones in the 193.in-addr.arpa domain. As of March 16th 1993 the RIPE NCC has been delegated the authority for the 193.in-addr.arpa domain from the root. Due to the fact that in the 193.x.y address space blocks of 256 class C network numbers are further delegated to local registries , the possibility exists to also delegate the zone for these blocks in the 193.in-addr.arpa domain. This document describes some guidelines and procedures for this type of delegation and the delegation of reverse zones for individual class C networks in 193.x.y.

A bit more explained

With

policies for the assignment of

class C network numbers following the CIDR (RFC 1338) model, in which large chunks of the address space are delegated to one region, and within that region blocks of class C network numbers are delegated to service providers and non-provider registries, some hierarchy in the address space is created, similar to the hierarchy in the domain name space. Due to this hierarchy the reverse Domain Name System mapping can also be delegated in a similar model as used for the normal Domain Name System. For instance, the RIPE NCC has been assigned the complete class C address space starting with 193. It is therefore possible to delegate the 193.in-addr.arpa domain completely to the RIPE NCC, instead of each and every reverse mapping in the 193.in-addr.arpa domain to be registered with the INTERNIC. This implies that all 193.in-addr.arpa resistrations will be done by the RIPE NCC. Even better, since service providers receive complete class C network blocks from the RIPE NCC, the RIPE NCC can delegate the reverse registrations for such complete blocks to these local registries. This implies that customers of these service providers no longer have to register their reverse domain
mapping with the root, but the service provider have authority over that part of the reverse mapping. This decreases the workload on the INTERNIC and the RIPE NCC, and at the same time increase the service a provider can offer its customers by improve response times for reverse mapping changes . However there are some things that need to be examined a bit more closely to avoid confusion and inconsistencies. These issues are covered in the next section.

Procedures for the delegation of direct subdomains of 193.in-addr.arpa

1. A secondary nameserver at ns.ripe.net is mandatory for all blocks of class C network numbers delegated in the 193.in-addr.arpa domain.

2. Because of the increasing importance of correct reverse address mapping, for all delegated blocks a good set of secondaries must be defined. There should be at least 2 nameservers for all blocks delegated, excluding the RIPE NCC secondary.

3. The delegation of a class C block in the 193.in-addr.arpa domain can be requested by sending in a domain object for the RIPE database to <hostmaster@ripe.net> with all necessary contact and nameserver information. globally unique Autonomous System (AS) Numbers within the RIPE NCC service region. These policies are developed by the RIPE Community following the RIPE Policy Development Process.

Contents

1.0 Definition Link: #1
2.0 Assignment Criteria Link: #2
3.0 Assignments for Internet Experiments Link: #3
3.1 Defining the Experiment Link: #31
3.2 Non-commercial Basis Link: #32
3.3 Period of the Resource Registration Link: #33
4.0 Returning AS Numbers Link: #4
5.0 32-bit AS Numbers Link: #5
6.0 Registration Link: #6
7.0 References Link: #7
8.0 Attribution Link: #8

1.0 Definition

An Autonomous System (AS) is a group of IP networks run by one or more network operators with a single clearly defined routing policy. When exchanging exterior routing information, each AS is identified by a unique number. Exterior routing protocols such as BGP, described in RFC 1771 Link: ftp://ftp.ripe.net/rfc/rfc1771.txt , "A Border Gateway Protocol 4 (BGP-4)", are used to exchange routing information between Autonomous Systems. An AS will normally use some interior gateway protocol to exchange routing information on its internal networks.

2.0 Assignment Criteria

In order to help decrease global routing complexity, a new AS Number should be used only if a new external routing policy is required, see RFC 1930 Link: ftp://ftp.ripe.net/rfc/rfc1930.txt .

A network must be multihomed in order to qualify for an AS Number. When requesting an AS Number the routing policy of the Autonomous System must be provided. The new unique routing policy should be defined in RPSL language, as used in the RIPE Database.

The RIPE NCC will

then forward all
current reverse zones inside this block to the registry, and after addition of these by the registry, the NCC will check the working of the reverse server. Once everything is setup properly, the NCC will delegate the block, and submit the database object for inclusion in the database. An example domain object can be found at the end of this document.

4. All reverse servers for blocks must be reachable from the whole of the Internet. In short, all servers must meet similar connectivity requirements as top-level domain servers.

5. Running the reverse server for class C blocks does not imply that one controls that part of the reverse domain, it only implies that one administers that part of the reverse domain.

6. Before adding individual nets, the administrator of a reverse domain must check wether all servers to be added for these nets are indeed setup properly.

7. There are some serious implications when a customer of a service provider that uses address space out of the service provider class C blocks, moves to another service provider. The previous service provider cannot force its ex-customer to change network
addresses, and will have to continue to provide the appropriate delegation records for reverse mapping of these addresses, even though it they are no longer belonging to a customer.

8. The registration of the reverse zones for individual class C networks will usually be done by the registry administering the class C block this network has been assigned from. The registry will make the necessary changes to the zone, and update the network objects in the RIPE database for these networks, to reflect the correct "rev-srv" fields. In case the RIPE NCC receives a request for the reverse zone of an individual class C network out
of a block that has been delegated, the request will be forwarded to the zone contact for this reverse block.

9. The NCC advises the following timers and counters for direct subdomains of 193.in-addr.arpa: 8 hours refresh (28800 seconds), 2 hours retry (7200 seconds), 7 days expire (604800 seconds) and 1 day Time To Live (86400 seconds). The retry counter should be
lowered where connectivity is unstable.

Above procedures are defined to ensure the necessary high availability for the 193 reverse domains, and to minimize confusion. The NCC will ensure fast repsonse times for addition requests, and will in principle update the 193.in-addr.arpa domain at least once per working day.

Example domain object to request a block delegation

domain: 202.193.in-addr.arpa
descr: Pan European Organisations class C block
admin-c: Daniel Karrenberg
tech-c: Marten Terpstra
zone-c: Marten Terpstra
nserver: ns.eu.net
nserver: sunic.sunet.se
nserver: ns.ripe.net
changed: marten@ripe.net 930319
source: RIPE

Procedures for the delegation of individual network zones by the RIPE NCC.

The registration of the reverse zones for individual class C networks will usually be done by the registry administering the class C block this network has been assigned from. In case the zone corresponding to the class C block has not been delegated, assign the AS Number directly to the End User upon a request properly submitted to the RIPE NCC either directly or through a sponsoring LIR. AS Number assignments are subject to the policies described in the RIPE NCC document entitled “Contractual Requirements for Provider Independent Resource Holders in the RIPE NCC Service Region Link: http://www.ripe.net/ripe/docs/contract-req.html ”.

3.0 Assignments for Internet Experiments

Organisations often require deployment tests for new Internet services and technologies. These require numbering resources for the duration of the test. The policy goal of resource conservation is of reduced importance when resources are issued on a temporary basis.

3.1 Defining the Experiment

The experiment for which the organisation receives numbering resources must be documented. This may be in the form of a current IETF Experimental RFC (see RFC 2026 Link: ftp://ftp.ripe.net/rfc/rfc2026.txt , Section 4.2.1 or an “experiment proposal” detailing the resources required and the activities to be carried out. A single AS Number will be assigned. If more than one AS Number is required for the experiment, this should be indicated and explained in the request.

The experiment proposal must be made public (e.g. published on a website), upon registration of the resources by the RIPE NCC. When the experiment is concluded the results must be published free of charge and free from disclosure constraints.

3.2 Non-commercial Basis

Resources issued for an experiment must not be used for commercial purposes.

3.3 Period of the Resource Registration

The resources will be issued on a temporary basis for a period of one year. Renewal of the resources' registration is possible on receipt of a new request that details any continuation of the experiment during the extended period.

The resources issued cannot be used for a commercial service following the conclusion of the experiment. At the end of the assignment period the AS Number must be returned to the RIPE NCC.

4.0 Returning AS Numbers

If an organisation no longer uses the AS Number, it must be returned to the public pool of AS Numbers. The RIPE NCC can then reassign the AS Number to another organisation.

5.0 32-bit AS Numbers

The RIPE NCC assigns 32-bit AS Numbers according to the following timeline:

From 1 January 2007 the RIPE NCC will process applications that specifically request 32-bit only AS Numbers (AS Numbers that can not be represented with 16 bits) and assign such AS Numbers as requested by the applicant. In the absence of any specific request for a 32-bit only AS Number,

the RIPE NCC will automatically add the reverse nameserver as specified in the "rev-srv" attribute of the RIPE database object for this network, using the following procedures:

1. Because of the increasing importance of correct reverse address mapping, for all delegated networks a good set of secondaries must be defined. There should be at least two nameservers for all networks delegated.

2. The "rev-srv" field should ONLY contain one fully qualified domain name of a nameserver which is authoritative for the reverse zone for this network.

3. If a network has or is going to have any external connectivity, it is strongly recommended that it has at least one reverse nameserver that can be reached from all of the Internet.

4. The checking and addition of the reverse zones for single networks is completely automated at the RIPE NCC. Although we do our best to check the setup of the nameservers, these does not receive the same level of scrutiny as nameservers for blocks of class C network numbers. It is the responsibility of the network contacts to ensure proper operation.

5. Any problems regarding the reverse zones in 193.in-addr.arpa should be directed to <hostmaster@ripe.net>.

The NCC also suggests that similar procedures are set up for the delegation of reverse zones for individual class C networks from the registries to individual organisations.

assign a 16-bit AS Number.

  • From 1 January 2009 the RIPE NCC will process applications that specifically request 16-bit AS Numbers and assign such AS Numbers as requested by the applicant. In the absence of any specific request for a 16-bit AS Number, the RIPE NCC will assign a 32-bit only AS Number.

  • From 1 January 2010 the RIPE NCC will cease to make any distinction between 16-bit AS Numbers and 32-bit only AS Numbers, and it will operate AS Number assignments from an undifferentiated 32-bit AS Number allocation pool.
  • 6.0 Registration

    The RIPE NCC will register the resources issued in the RIPE Database.

    7.0 References

    [RFC1771] "A Border Gateway Protocol 4 (BGP-4)" http://www.ietf.org/rfc/rfc1771.txt Link: http://www.ietf.org/rfc/rfc1771.txt [RFC1930] " Guidelines for creation, selection, and registration of an Autonomous System (AS)" http://www.ietf.org/rfc/rfc1930.txt Link: http://www.ietf.org/rfc/rfc1930.txt
    [RFC2026] "The Internet Standards Process -- Revision 3 IETF Experimental RFC http://www.ietf.org/rfc/rfc2026.txt Link: http://www.ietf.org/rfc/rfc2026.txt see Sec. 4.2.1

    8.0 Attribution

    This document is compiled from policies developed by the RIPE community.

    The following people actively contributed by making proposals through the RIPE Policy Development Process:
    Nick Hilliard, Geoff Huston