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Abstract

European Internet Registry: Procedures for DNS Delegation in the IN-ADDR.ARPA Domain David Kessens June 1994 Document-ID: ripe-105++ Obsoletes: ripe-105 ABSTRACT

This document describes the

RIPE community's current IPv4 address allocation and assignment policies. They were developed through a bottom-up, consensus driven, open policy development process in the RIPE Address Policy Working Group (AP WG). The RIPE Network Coordination Centre (RIPE NCC) facilitates and supports this process. These policies apply to the RIPE NCC and the Local Internet Registries (LIRs) within the RIPE NCC service region.

Information on the Address Policy WG is available at:
http://www.ripe.net/ripe/wg/address-policy/index.html Link: /community/wg/active-wg/ap/

Contents

1.0 Introduction

The RIPE NCC is an independent association and serves as one of five Regional Internet Registries (RIRs). Its service region incorporates Europe, the Middle East, and Central Asia. The RIPE NCC is responsible for the allocation and assignment of Internet Protocol (IP) address space, Autonomous System Numbers (ASNs) and the management of reverse domain names within this region. The distribution of IP space follows the hierarchical scheme described in the document "Internet Registry System Link: /community/internet-governance/internet-technical-community/the-rir-system/ ".

1.1 Scope

procedures for the delegation of zones in European subdomains of IN-ADDR.ARPA. Introduction The domain tree below IN-ADDR.ARPA is used to facilitate "reverse" mapping from IP addresses to domain names [RFC883, RFC1033].

This document describes the policies for the responsible management of globally unique IPv4 Internet address space in the RIPE NCC service region. The policies documented here apply to all IPv4 address space allocated and assigned procedures for the delegation of zones in European subdomains of IN-ADDR.ARPA. Randomly Assigned Numbers There are two groups of European network numbers: hierarchically assigned numbers and randomly assigned ones. The hierarchically assigned numbers are part of the 193.x.y.0 and 194.x.y.0 network blocks. All other European network numbers, class A, class B and 192.x.y.0 class Cs are randomly assigned. Hierarchically Assigned Numbers The subdomains of IN-ADDR.ARPA corresponding to the hierarchically assigned network numbers are administered by the RIPE NCC. These

policies must be implemented by all RIPE NCC member LIRs.

This document does not describe policies related to AS Numbers, IPv6, Multicast, or private address space. Nor does it describe address distribution policies used by other RIRs. The RIPE community's policies for ASN assignment and IPv6 are published in the RIPE Document Store at:
http://www.ripe.net/ripe/docs/internet-registries.html#policy Link: /publications/docs/ripe-policies/

2.0 IPv4 Address Space

For the purposes of this document, IP addresses are 32-bit binary numbers used as addresses in the IPv4 protocol. There are three main types of IPv4 addresses:

  1. Public IP addresses are assigned to be globally unique according to the goals described in Section 3 of this document.

  2. Some address ranges are set aside for the operation of private IP networks. Anyone may use these addresses in their private networks without registration or co-ordination. Hosts using these addresses cannot directly be reached from the Internet. Such connectivity is enabled by using the technique known as Network Address Translation (NAT). Private addresses restrict a network so that its hosts only have partial Internet connectivity. Where full Internet connectivity is needed, unique, public addresses should be used.

    For a detailed description of “Address Allocation for Private Internets” and the actual ranges of addresses set aside for that purpose, please refer to RFC1918 found at: ftp://ftp.ripe.net/rfc/rfc1918.txt Link: ftp://ftp.ripe.net/rfc/rfc1918.txt

    For information on the “Architectural Implications of NAT”, please refer to RFC2993, found at: ftp://ftp.ripe.net/rfc/rfc2993.txt Link: ftp://ftp.ripe.net/rfc/rfc2993.txt

  3. Some address ranges are reserved for special use purposes. These are described in RFC3330 and are beyond the scope of this document. RFC3330 can be found at: ftp://ftp.ripe.net/rfc/rfc3330.txt Link: ftp://ftp.ripe.net/rfc/rfc3330.txt

3.0 Goals of the Internet Registry System

Public IPv4 address assignments should be made with the following goals in mind:

  1. Uniqueness: Each public IPv4 address worldwide must be unique. This is an absolute requirement guaranteeing that every host on the Internet can be uniquely identified.

  2. Aggregation: Distributing IPv4 addresses in an hierarchical manner permits the aggregation of routing information. This helps to ensure proper operation of Internet routing.
  3. Conservation: Public IPv4 address space must be fairly distributed to the End Users operating networks. To maximise the lifetime of the public IPv4 address space, addresses must be distributed according to need, and stockpiling must be prevented.
  4. Registration: The provision of a public registry documenting address space allocations and assignments must exist. This is necessary to ensure uniqueness and to provide information for Internet troubleshooting at all levels.

3.1 Confidentiality

Internet Registries (IRs) have a duty of confidentiality to their registrants. Information passed to an IR must be securely stored and should not be distributed wider than necessary within the IR. When necessary, the information may be passed to a higher-level IR under the same conditions of confidentiality.

3.2 Language

Please note that all communication with the RIPE NCC must be in English.

4.0 Registration Requirements

All assignments and allocations must be registered in the RIPE Database. This is necessary to ensure uniqueness and to support network operations.

Only allocations and assignments registered in the RIPE Database are considered valid. Registration of objects in the database is the final step in making an allocation or assignment. Registration data (range, contact information, status etc.) must be correct at all times (i.e. they have to be maintained).

5.0 Policies and Guidelines for Allocations

An allocation is a block of IPv4 addresses from which assignments are taken.

The RIPE NCC allocates enough address space to LIRs to meet their needs for a period of up to 12 months.

Starting on 1 July 2010, a gradual reduction in the allocation period will be applied as follows:

As of 1 July 2010, the RIPE NCC will start allocating enough address space to LIRs to meet their needs for a period of up to nine months.

As of 1 January 2011, the RIPE NCC will start allocating enough address space to LIRs to meet their needs for a period of up to six months.

As of 1 July 2011, the RIPE NCC will start allocating enough address space to LIRs to meet their needs for a period of up to three months.

All LIRs receiving address space from the RIPE NCC must adopt a set of policies that are consistent with the policies formulated by the RIPE community and described in this document.

5.1 First Allocation

The RIPE NCC's minimum allocation size is /21.

Details of how to join the RIPE NCC can be found in the RIPE Document "Procedure for Becoming a Member of the RIPE NCC Link: /membership/member-support/become-a-member/ "

Members can receive an initial IPv4 allocation when they have demonstrated a need for IPv4 address space.

5.2 Slow-start Mechanism

The slow-start mechanism was put into place to ensure a consistent and fair policy for all LIRs with respect to allocations.

Address space is allocated to LIRs at the rate that the addresses are sub-allocated and assigned by the LIRs. An allocation larger than the minimum size can be made if a need is demonstrated. The size of future allocations is based on the usage rate of previous allocation(s).

5.3 Additional Allocations

An LIR may receive an additional allocation when about eighty percent (80%) of all the address space currently allocated to it is used in valid assignments or sub-allocations. A new allocation can be made if a single assignment or sub-allocation requires a larger set of addresses than can be satisfied with the address space currently held by the LIR.

Reservations are not considered valid assignments or sub-allocations. It may be useful for internal aggregation to keep some address space free for future growth in addition to the actual assignment. However, the LIR must be aware that these internal reservations are not counted as valid usage. The space must be sub-allocated or assigned before the LIR can request another allocation.

To obtain a new allocation, an LIR should submit a request to the RIPE NCC using the "IPv4 Additional Allocation Request Form" available from the RIPE Document Store at:
http://www.ripe.net/ripe/docs/add-allocation.html Link: http://www.ripe.net/ripe/docs/add-allocation.html

Additional address space will only be allocated after the information supplied with the request has been verified and a new allocation deemed necessary.

The RIPE NCC will do its best to allocate contiguous address space in order to support aggregation. This cannot be guaranteed as it depends on factors outside the RIPE NCC's influence (e.g. the number of new LIRs and the time needed to utilise the allocation).

5.4 Sub-allocations

Sub-allocations are intended to aid the goal of routing aggregation and can only be made from allocations with a status of “ALLOCATED PA”. LIRs holding “ALLOCATED PI” or “ALLOCATED UNSPECIFIED” allocations may be able to convert them to PA allocations if there are no ASSIGNED PI networks within it. The meanings of the various “status:” attribute values are described in Section 9.0.

LIRs wishing to convert their allocations to PA status should contact the RIPE NCC by email at lir-help@ripe.net Link: mailto:lir-help@ripe.net .

The minimum size of a sub-allocation is /24. This is the smallest prefix length that can be reverse delegated and allows for a reasonable number of small assignments to be made by a downstream network operator.

An LIR may sub-allocate up to an IPv4 /20 (4096 addresses) to a downstream network operator every twelve months.

LIRs may make sub-allocations to multiple downstream network operators.

However, downstream network operators may receive sub-allocations totalling more than a /20 from more than one LIR.

The LIR is contractually responsible for ensuring the address space allocated to it is used in accordance with the RIPE community's policies. It is recommended that LIRs have contracts requiring downstream network operators to follow the RIPE community's policies when those operators have sub-allocations.

The RIPE NCC considers sub-allocated space as “used” when evaluating requests from the LIR for an additional IPv4 allocation. Where an LIR has made many sub-allocations with little assigned within them, the RIPE NCC will ask the LIR to justify the reasons for the sub-allocations.

LIRs should note that evaluating a request for an allocation is different from evaluating a request for an assignment. With assignments, the evaluator can see the network plans for a single organisation. With allocations, the evaluator is often presented with sales and marketing plans. The addressing requirements of individual organisations cannot be examined.

It is recommended that LIRs make use of a slow-start mechanism when making a sub-allocation for a downstream network operator. There are two main advantages to this: the LIR can ensure that the address space it sub-allocates is used efficiently; also the LIR can determine the ability of the downstream organisation to operate within the policies set by the RIPE community.

Sub-allocations form part of an LIR's aggregatable address space. As such, an LIR may want to ensure that the address space is not retained by a downstream network if the downstream network operator ceases to receive connectivity from the LIR's network. LIRs not wishing to lose address space in this way are responsible for ensuring that the status of the sub-allocation is clear in any contracts between the LIR and the downstream network operator.

5.5 Transfers of Allocations

Any LIR is allowed to re-allocate complete or partial blocks of IPv4 address space that were previously allocated to them by either the RIPE NCC or the IANA. Such address space must not contain any block that is assigned to an End User.

Address space may only be re-allocated to another LIR that is also a member of the RIPE NCC. The block that is to be re-allocated must not be smaller than the minimum allocation block size at the time of re-allocation. An LIR may only receive a transferred allocation after their need is evaluated and approved by the RIPE NCC, following the policies set for receiving further allocations within RIPE region (see the Section 5.3 Additional Allocations of this document).

Re-allocation must be reflected in the RIPE Database. This re-allocation may be on either a permanent or non-permanent basis.

LIRs that receive a re-allocation from another LIR cannot re-allocate complete or partial blocks of the same address space to another LIR within 24 months of receiving the re-allocation.

The RIPE NCC will record the change of allocation after the transfer. Please note that the LIR always remains responsible for the entire allocation it receives from the RIPE NCC until the transfer of address space to another LIR is completed or the address space is returned. The LIR must ensure that all policies are applied.

Re-allocated blocks will be signed to establish the current allocation owner.

Re-allocated blocks are no different from the allocations made directly by the RIPE NCC and so they must be used by the receiving LIR according to the policies described in this document.

6.0 Policies and Guidelines for Assignments

Conservation and aggregation are often conflicting goals. When the Internet Registry System goals are in conflict with the interests of individual End Users or service providers, careful analysis and judgement is necessary to find an appropriate compromise. The rules and guidelines in this document are intended to help LIRs and End Users in their search for equitable compromises.

The End Users must be assigned with enough address space to meet their needs for a period of up to 12 months.

Starting on 1 July 2010, a gradual reduction in the assignment period will be applied as follows:

As of 1 July 2010, the RIPE NCC or the LIRs will start assigning enough address space to End Users to meet their needs for a period of up to nine months.

As of 1 January 2011, the RIPE NCC or the LIRs will start assigning enough address space to End Users to meet their needs for a period of up to six months.

As of 1 July 2011, the RIPE NCC or the LIRs will start assigning enough address space to End Users to meet their needs for a period of up to three months.

Please note that LIRs must request approval from the RIPE NCC for assignments that are larger than the LIR's AW (Section 7.0). LIRs are always welcome to approach the RIPE NCC for a second opinion on requests even if they fall within the LIR's AW.

6.1 Documentation for Assignments

In order to determine the address space requirements for a network, relevant information must be gathered. The details needed for justification of each End User organisation's assignments include the addressing requirements, network infrastructure and future plans. The current address space usage of the organisation should also be determined to ensure that an existing assignment is not duplicated.

This information is essential in making the appropriate assignment decisions. Balancing the overall goals of the Internet Registry System (Section 3.0) with the requirements of the network in question is needed for every network. The level of detail is dependent on the complexity of the network. The LIR must ensure that the necessary information is complete before making an assignment.

The RIPE NCC provides forms for gathering the required information. The information requested in the forms must be collected by the LIR. LIRs may use these forms for their customers' requests or develop their own forms. Local forms can be used if they record all the required data. This is very important when an LIR makes assignments using its AW.

If a request needs to be approved by the RIPE NCC or if information is required in the event of an audit, the information must be submitted on the version of the request form in place at the time of the assignment. The current versions of all request forms can be found at:
http://www.ripe.net/ripe/docs/internet-registries.html#request Link: /publications/docs/ripe-documents/request-forms-supporting-notes/

6.2 Network Infrastructure and End User Networks

IP addresses used solely for the connection of an End User to a service provider (e.g. point-to-point links) are considered part of the service provider's infrastructure. These addresses do not have to be registered with the End User's contact details but can be registered as part of the service provider's internal infrastructure. When an End User has a network using public address space this must be registered separately with the contact details of the End User. Where the End User is an individual rather than an organisation, the contact information of the service provider may be substituted for the End Users.

An explanation of how to register objects in the database can be found in the “RIPE Database User Manual: Getting Started” found at:
http://www.ripe.net/ripe/docs/db-start.html Link: /manage-ips-and-asns/db/support/documentation/

6.3 Utilisation Rates

The utilisation rate of an assignment must be such that at least 50% of the total space shall have been utilised halfway through the assignment period applied at the time of the assignment.

Assignments may only be based on realistic expectations recorded in the documentation.

6.4 Reservations Not Supported

End Users are not permitted to reserve address space based on long-term plans. This violates the goal of conservation and fragments the address space when initial forecasts are not met. Evaluation of IP address space requests must be based on a demonstrated need. Unused, or inefficiently used address space assigned in the past should be used to meet the current request, or returned. Once an organisation has used its assigned address space, it can request additional address space based on an updated estimate of growth in its network.

6.5 Administrative Ease

The current rate of consumption of the remaining unassigned IPv4 address space does not permit the assignment of addresses for administrative ease. Examples of this include, but are not limited to, ease of billing administration and network management.

6.6 Validity of an Assignment

All assignments are valid as long as the original criteria on which the assignment was based are still valid and the assignment is properly registered in the RIPE Database. If an assignment is made for a specific purpose and that purpose no longer exists, the assignment is no longer valid. If an assignment is based on information that turns out to be invalid, the assignment is no longer valid.

For these reasons it is important that LIRs make sure that assignments approved by the RIPE NCC are properly registered in the database. The inetnum object or objects for approved assignments must use the netname(s) approved by the RIPE NCC and not be larger than the approved size. Additionally, the date in the first “changed:” attribute must not be earlier than the date of the approval message from the RIPE NCC.

The RIPE NCC reviews assignments made by LIRs when evaluating requests for additional allocations (see 5.3). It also runs consistency checks as part of the auditing activity requested by the community as described in the RIPE document “RIPE NCC Audit Activity” found at:
http://www.ripe.net/ripe/docs/audit.html Link: /publications/docs/ripe-423/

6.7 Efficiency

Where large amounts of address space are assigned for a purpose that is often satisfied with smaller amounts (e.g. transient connections or virtual server hosting), the RIPE NCC may verify the existing usage before approving additional assignments.

6.8 Renumbering

In general, addresses can be replaced on a one-to-one basis. Valid assignments can be replaced with the same number of addresses if the original assignment criteria are still met. The addresses to be replaced must still be in use. End Users are required to submit a new request if more than half the original assignment is not in use. When the renumbering request exceeds the new LIR's AW (see Section 7.0) the request needs to be sent to the RIPE NCC for approval.

The RIPE community generally accepts that a period of three months is enough time to migrate a network to new address space. Where the End User wants to keep both assignments for more than three months, an agreement should be obtained

numbers are currently: 193.0.0.0 - 194.255.255.255 The other addresses are administered by the other regional registries that might have other procedures for requesting a reverse delegation. For clarity we refer in the procedures and examples as described below to the 193.x block of addresses, although we could have as well used the other block(s) that RIPE administers. With the assignment of class C network numbers following RFC1466, large chunks of the address space are delegated to regional Internet Registries. The regional registries delegate blocks of class C net- work numbers to local Internet Registries. In this way a hierarchy in the address space is created, which is similar to the hierarchy in the domain name space. Due to this hierarchy the reverse DNS map- ping can also be delegated in a similar model as used for the normal Domain Name System. For instance, the RIPE NCC has been delegated 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 delegations in turn will be done by the RIPE NCC. Even better, since local registries usually receive blocks of 256 class C networks from the RIPE

NCC for the proposed time frame.Once a

NCC, the 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 InterNIC or the NCC, but the service providers 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 improves the service a provider can offer its customers by improving response times for reverse mapping changes. In order to provide a reliable service some procedures have been agreed and must be followed in order to avoid confusion and inconsistencies. These procedures are covered in the procedure section. The registration of the reverse zones for individual class C net- works will usually be done by the registry administering the class C block this network has been

renumbered, the old assignment must be removed from the RIPE Database.

6.9 Anycasting TLD and Tier 0/1 ENUM Nameservers

The organisations applicable under this policy are TLD managers, as recorded in the IANA's Root Zone Database and ENUM administrators, as assigned by the ITU. The organisation may receive up to four /24 prefixes per TLD and four /24 prefixes per ENUM. These prefixes must be used for the sole purpose of anycasting authoritative DNS servers for the stated TLD/ENUM, as described in BCP126/RFC4786 (http://www.ietf.org/rfc/rfc4786.txt Link: http://www.ietf.org/rfc/rfc4786.txt ).

Assignments for authoritative TLD or ENUM Tier 0/1 DNS lookup services are subject to the policies described in the RIPE 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 ".

Anycasting assignments are registered with a status of 'ASSIGNED ANYCAST' in the RIPE Database and must be returned to the RIPE NCC if not in use for authoritative TLD or ENUM Tier 0/1 DNS lookup services via anycast any longer.

7.0 Assignment Window

An AW refers to the maximum number of addresses that can be assigned by the LIR without prior approval from the RIPE NCC, either to their own network or to an End User's network. The size of the AW is expressed in CIDR notation.

The AW policy was developed to achieve various levels of support based on the level of experience of the LIR. The RIPE NCC may review assignments made with the LIR's AW to ensure that the LIR is assigning address space according to the RIPE community's policies. This is important to assure the fair distribution of address space and to meet the goals of aggregation, conservation and registration. Documentation for assignments made with an AW need to contain the same information as in a completed request form found at:
http://www.ripe.net/ripe/docs/internet-registries.html#request Link: /publications/docs/ripe-documents/request-forms-supporting-notes/

All new LIRs start with an AW of zero (0). Their AW will automatically be set to a /21 (2048 addresses) six months after receiving their first allocation. This means that all new LIRs need to request approval before making each assignment until their AW has been raised.

The AW is applied differently depending on whether the assignment is for an End User or for the LIR's infrastructure.

There is no constraint on how often the LIR uses its AW for its own infrastructure. These assignments may not exceed the LIR's AW. This means that an LIR with a /25 AW can make numerous individual /25 assignments to its own network infrastructure without having to send each request to the RIPE NCC. However, where a single assignment would exceed a /25 the LIR would need to request approval for that assignment from the RIPE NCC.

LIRs must specify which assignments to their own infrastructure have used the AW. Such assignments must have a "remarks:" attribute with the value <INFRA-AW> in the inetnum object registered in the RIPE Database. It is important that a separate "remarks:" attribute is used solely for this purpose.

An AW can be applied to an End User network once per 12-month period. This means an LIR or a downstream network operator as the user of a sub-allocation can make more than one assignment to an End User in any 12-month period but the total amount of address space cannot be larger than the LIR's AW. An LIR's AW is refreshed on the anniversary of an assignment. When an LIR has made several assignments to an organisation over the period of a year their AW for that organisation will be fully restored on the anniversary of the last assignment.

The LIR may only assign additional addresses to the same End User after approval from the RIPE NCC.

AWs are regularly reviewed by RIPE NCC staff. LIRs may approach the RIPE NCC for an evaluation of their AW six months after receiving their first allocation and at any time after that. Please note that LIRs are always welcome to approach the RIPE NCC for a second opinion on requests even if they fall within the LIR's AW.

As the proficiency of the LIR contacts increases, the size of their AW may be raised. This is determined based on:

  • correctly completed documentation presented to the RIPE NCC
  • good judgment shown in the evaluation of address space requests
  • past assignments have been properly registered

An established LIR is responsible for training its new LIR contacts to handle address space assignments according to the policies described in this document and their procedures. Less experienced LIR contacts may make errors both in judgment and procedure. If errors happen repeatedly, the AW of the LIR may be decreased to prevent the LIR from making invalid assignments. The AW may again be increased based on the criteria stated above.

The AW may also be lowered after or during an audit if invalid assignments are noted.

8.0 Assignments for Internetworking 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.

An organisation receiving numbering resources must document the experiment. This may be in the form of a current IETF Experimental RFC (http://www.ietf.org/rfc/rfc2026.txt Link: http://www.ietf.org/rfc/rfc2026.txt Sec. 4.2.1) or an “experiment proposal” detailing the resources required and the activities to be carried out.

The assignment size will be equal to the existing minimum allocation size on the date the request is received. Where the experiment requires a variation to this rule it should be noted in the resource request.

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

Resources issued must not be used for commercial purposes during or following the conclusion of the experiment.

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

The

assigned from. If the subdomain has not yet been delegated to the registry con- cerned the RIPE NCC will register the

resources issued in the RIPE Database.

The request must be made by an LIR using the appropriate request form. Details of the experiment should be noted in the form found at:
http://www.ripe.net/ripe/docs/internet-registries.html#request Link: /publications/docs/ripe-documents/request-forms-supporting-notes/

9.0 PA vs. PI Address Space

LIRs are allocated PA address space. They sub-allocate and assign this to downstream networks. If a downstream network or End User changes its service provider, the address space assigned or sub-allocated by the

individual networks. However this service is only provided at a "best-effort" level and no ser- vice guarantees are given. The local registries should whenever possible provide this service locally. Responsibilities for the DNS administrator of a reverse block delegation: As with all domain name space, 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. If after repeated complaints the delegated name space is still not administered properly the RIPE NCC has to revoke the delegation. Before adding individual nets, the administrator of a reverse domain must check whether all servers to be added for these nets are indeed set up properly. There are some serious implications when a customer that uses address space out of the service provider class C blocks, moves to another service provider. The previous service provider

must be returned and the network renumbered.

In contrast, Provider Independent (PI) address space is assigned to End Users directly from the address pools managed directly by the RIPE NCC. PI space cannot be re-assigned or further assigned to other parties. PI address space can only remain assigned to a network as long as the criteria for the original assignment are maintained. Additionally, all new PI address space assignments are subject to the policies described in the RIPE NCC document entitled “Contractual Requirements for Provider Independent Resources Holders in the RIPE NCC Service Region Link: http://www.ripe.net/ripe/docs/contract-req.html ”.

As PI addresses are not assigned from LIR-allocated PA address blocks, they cannot be aggregated on the public Internet. Consequently, they are expensive to route, and therefore may not be globally routable. The use of PA address space should always be recommended.

LIRs must make it clear to End Users which type of address space is assigned. Clear contractual arrangements are recommended and are mandatory for PA space.

In the past, some LIRs assigned address space that was de facto aggregated but not formally PA because there were no clear contractual arrangements for termination of the assignment. LIRs must ask leaving customers to voluntarily release this address space upon termination of service. Where possible, LIRs should work to make contractual arrangements to convert PI addresses into PA addresses.

End Users requesting PA space should be given this or a similar warning:

Assignment of this IP space is valid as long as the criteria for the original assignment are met and only for the duration of the service agreement between yourself and us. We have the right to reassign the address space to another user upon termination of this agreement or an agreed period thereafter. This means that you

cannot force its ex-customer to change network addresses, and will have to
  • re-configure the addresses of all equipment using this IP space if you continue to require global uniqueness of those addresses.

    End Users requesting PI space should be given this or a similar warning:

    Assignment of this IP space is valid as long as the criteria for the original assignment are still met and is also subject to the policies described in the RIPE NCC document entitled “Contractual Requirements for Provider Independent Resources Holders in the RIPE NCC Service Region Link: http://www.ripe.net/ripe/docs/contract-req.html ”.

    Assignment of address space does NOT imply that this address space will be ROUTABLE ON ANY PART OF THE INTERNET. It is expected that users will have to pay a premium for actual routing of PI addresses as opposed to PA addresses. It may eventually become impossible to get relatively small amounts of PI space routed on most of the Internet. We strongly suggest you contact any prospective service provider for information about issues related to service when using PI addresses.

    LIRs will register the type of any assigned address space using the “status:” attribute of the inetnum object in the RIPE Database. The possible values of this attribute are:

  • ALLOCATED PA: This address space has been allocated to an LIR and no assignments or sub-allocations made from it are portable. Assignments and sub-allocations cannot be kept when moving to another provider.

  • ALLOCATED PI: This address space has been allocated to an LIR or RIR and all assignments made from it are portable. Assignments can be kept as long as the criteria for the original assignment are met. Sub-allocations cannot be made from this type of address space.

  • ALLOCATED UNSPECIFIED: This address space has been allocated to an LIR or RIR. Assignments may be PA or PI. This status is intended to document past allocations where assignments of both types exist. It is avoided for new allocations. Sub-allocations cannot be made from this type of address space.

  • SUB-ALLOCATED PA: This address space has been sub-allocated by an LIR to a downstream network operator that will make assignments from it. All assignments made from it are PA. They cannot be kept when moving to a service provided by another provider.

  • LIR-PARTITIONED PA: This allows an LIR to document distribution and delegate management of allocated space within their organisation. Address space with a status of LIR-PARTITIONED is not considered used. When the addresses are used, a more specific inetnum should be registered.

  • LIR-PARTITIONED PI: This allows an LIR to document distribution and delegate management of allocated space within their organisation. Address space with a status of LIR-PARTITIONED is not considered used. When the addresses are used, a more specific inetnum should be registered.

  • EARLY-REGISTRATION: This is used by the RIPE Database administration when transferring pre-RIR registrations from the ARIN Database. The value can be changed by database users (except for ALLOCATED PA). Only the RIPE Database administrators can create objects with this value.

  • NOT-SET: This indicates that the registration was made before the “status:” attributes became mandatory for inetnum objects. The object has not been updated since then. New objects cannot be created with this value. The value can be changed by database users.

  • ASSIGNED PA: This address space

    continue to provide the appropriate delegation records for reverse mapping of these addresses, even though they are no longer belonging to a customer. 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 to an End User for use with services provided by the issuing LIR. It cannot be kept when terminating services provided by the LIR.
  • ASSIGNED PI: This address space has been assigned to an End User and can be kept as long as the criteria for the original assignment are met.

  • ASSIGNED ANYCAST: This address space has been assigned for use in TLD anycast networks. It cannot be kept when no longer used for TLD anycast services.

  • The creation of aninetnum object with a status of “ASSIGNED PA” or “ASSIGNED PI” is only possible if there is no less specific or more specific inetnum object with an “ASSIGNED” status.

    Address space without an explicit type in the “status:” attribute is assumed to be PI. LIRs must clearly mark all new assignments in the RIPE Database with either “PA” or “PI” as appropriate.

    The RIPE NCC no longer allocates PI address space. Consequently, many LIRs do not have PI allocations from which to make PI assignments. If an LIR has an End User that requires PI address space they are able to support them by sending these requests to the RIPE NCC on behalf of the End User. This support includes helping End Users prepare a properly documented request. The RIPE NCC will make PI assignments when justified.

    10.0 Record Keeping

    All documentation related to an IP address request and sub-allocation or assignment must be maintained by the LIR for future reference. This data is needed for the evaluation of subsequent requests for the same organisation, for audits by the RIR, and for the resolution of any questions that may arise regarding assignments. The records must include:

    • The original request
    • All supporting documentation
    • All related correspondence between the LIR and the End User
    • The assignment decision, including the reasons behind any unusual decision
    • The details of the person responsible for making the decision

    The history of events and the people responsible should be clearly recorded. In order to help the exchange of information, it is strongly recommended that documents are kept electronically and are readily accessible. If requested, any of this information should be made available to the RIPE NCC in English.

    11.0 LIR Audit

    The RIPE community asked the RIPE NCC to audit LIR operations and ensure consistent and fair implementation of the community's policies. Details of this activity are described in the RIPE Document "RIPE NCC Audit Activity" found at:
    http://www.ripe.net/ripe/docs/audit.html Link: /publications/docs/ripe-423/

    12.0 Closing an LIR by the RIPE NCC

    The RIPE NCC may close an LIR for any of the following reasons:
    • the LIR does not pay money owed to the RIPE NCC
    • the LIR cannot be contacted by the RIPE NCC for a significant period of time
    • the LIR consistently violates the RIPE community's policies

    The RIPE NCC takes on responsibility for address space held by closing LIRs. Information on training courses and training material can be found at:
    http://www.ripe.net/training/ Link: /training/

from. The registry will make the necessary changes to the zone files. The registry will also make sure that the network objects in the RIPE database for these networks are updated with the correct "rev-srv" attributes. 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 mailbox speci- field in the SOA RR for the zone concerned and to the zone- contact registered in the RIPE database for that zone. 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. Procedures The procedure for asking the reverse delegation of a block (256 C's) of addresses or network (1 or more C's) addresses is quite similar but there are some differences. Therefor they are described as one procedure with clear remarks when something only applies for block or network delegations. Note that we will be a little bit more stringent on the rules for block delegations since we need to be sure that other people can rely on you for proper operation of the DNS system. Above procedures are defined to ensure the necessary high availabil- ity for the reverse domains, and to minimise confusion. The NCC will ensure fast response times for addition requests, and will in principle update the 193.IN-ADDR.ARPA domain at least once per working day, if needed. Any problems regarding the reverse zones in 193.IN-ADDR.ARPA should be reported to <inaddr@ripe.net>. 1. We only reverse delegate when all addresses are assigned to you. 2. Your nameservers should be configured and running and should have good reachability on the internet. Nameservers for block delegations must meet similar connectivity requirements as top-level domain servers. The NCC recommends to use the following timers and counters (as advised by RFC1537): 28800 ;refresh period (8 hours) 7200 ;retry interval (2 hours) 604800 ;expire time (1 week) 86400 ;default ttl (1 day) It is mandatory for network (C) reverse delegations: - ns.ripe.net is NOT one of the secondary/primary nameservers - at least two nameservers should be used - We need a RIPE database 'inetnum' object with 'rev-srv:' attributes for the name (not IP address) of each nameserver. It is mandatory for block reverse delegations: - ns.ripe.net is one the secondary (never primary) nameservers - at least two other nameservers that don't reside on the same ethernet are required - Operators of the primary nameservers should be familiar with RFC1537 and this document - We need a RIPE database 'domain' object for each delegation with 'nserver:' attributes for the name (not IP address) of each nameserver 3. Send an E-mail request to <auto-inaddr@ripe.net> with: - In the header (or body if not possible) of your E-mail message: X-NCC-RegID: Country.RegistryName This is not required, though easy for keeping track of the requests. Of course, we don't need your local registry ID if you are not from a RIPE local registry. For network (C) reverse delegations: - We need a RIPE database 'inetnum' object with 'rev-srv:' attributes for the name (not IP address) of each nameserver For block reverse delegations: - State in your request that you know about RFC1537 & this document - A RIPE database 'domain' object for each delegation with 'nserver:' attributes for the name (not IP address) of each nameserver 4. Your request will first go through to an automatic checking program. The program will check your zone files and report you about errors (that should be fixed), warnings (that you might want to change), or that no errors have been found. If errors are found, you will be asked to fix them and resubmit your request and the automatic checks will be done again. If no errors (warnings are allowed, but we strongly suggest that you at least take a look at them) are found your request will be acknowledged and your request will be forwarded to the person in charge of the reverse delegation requests. He/she processes the request further. If no additional problems are found the object will included in the database and the block/network reverse delegated. You will always receive an acknowledgment when the delegation has been done or an explanation why not. Example of a network delegation request: From: "Anne X. Ample" <anne.x.ample@ample.nl> To: RIPE Hostmaster <auto-inaddr@ripe.net> Subject: LONGACK 2.1.193.in-addr.arpa delegation please Please delegate 2.1.193.in-addr.arpa as specified below. Thank you! For the AMPLE Corporation Anne X. Ample inetnum: 193.1.2.0 - 193.1.3.255 netname: AMPLE descr: AMPLE Corporation descr: Amsterdam, Netherlands country: NL admin-c: Anne X. Ample tech-c: G. E. K. Ample aut-sys: 4711 rev-srv: ns.ample.nl rev-srv: ns.elpma.ln changed: anne.x.ample@ample.nl 930101 source: RIPE Example of a block (256 C's) reverse delegation: From: Marten Terpstra <marten@in.ter.net> To: RIPE Hostmaster <auto-inaddr@ripe.net> Subject: LONGACK 202.193.in-addr.arpa delegation please Dear NCC people, I have read and understood ripe-105++ and RFC1537. Could you please delegate 202.193.in-addr.arpa as specified below. Thank you! Marten Terpstra 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 Some notes on the automatic checking program: You can use some keywords in the 'Subject:' line of your E-mail to control the checking process. The use of the LONGACK keyword is very recommended. For changing an existing delegation put the keyword CHANGE in the 'Subject:' line of your E-mail message. HELP - will send you this document CHANGE - is needed if you want to change an existing reverse delegation LONGACK - will give you the most verbose output as possible TEST - will only test your zone files without actually doing the request When you want to to a request for a block delegation and you want to know if there are already reverse zones registered within the zone of the requested block delegation, just send in your request and you will receive an error report that includes a copy of our zone file regarding this zone!