Registration Data Access Protocol (RDAP) Regional Internet Registry (RIR) Search
draft-ietf-regext-rdap-rir-search-19
| Document | Type | Active Internet-Draft (regext WG) | |
|---|---|---|---|
| Authors | Tom Harrison , Jasdip Singh | ||
| Last updated | 2025-07-25 (Latest revision 2025-06-04) | ||
| Replaces | draft-harrison-regext-rdap-rir-search | ||
| RFC stream | Internet Engineering Task Force (IETF) | ||
| Intended RFC status | Proposed Standard | ||
| Formats | |||
| Reviews |
ARTART IETF Last Call review
(of
-14)
by John Levine
Ready w/nits
|
||
| Additional resources | Mailing list discussion | ||
| Stream | WG state | Submitted to IESG for Publication | |
| Associated WG milestone |
|
||
| Document shepherd | Mario Loffredo | ||
| Shepherd write-up | Show Last changed 2024-11-25 | ||
| IESG | IESG state | RFC Ed Queue | |
| Action Holders |
(None)
|
||
| Consensus boilerplate | Yes | ||
| Telechat date | (None) | ||
| Responsible AD | Orie Steele | ||
| Send notices to | mario.loffredo@iit.cnr.it | ||
| IANA | IANA review state | IANA OK - Actions Needed | |
| IANA action state | RFC-Ed-Ack | ||
| IANA expert review state | Expert Reviews OK | ||
| IANA expert review comments | The RDAP registrations have been approved. The Link Relations registrations issues have been addressed. | ||
| RFC Editor | RFC Editor state | EDIT | |
| Details |
draft-ietf-regext-rdap-rir-search-19
Internet Engineering Task Force T. Harrison
Internet-Draft APNIC
Intended status: Standards Track J. Singh
Expires: 6 December 2025 ARIN
4 June 2025
Registration Data Access Protocol (RDAP) Regional Internet Registry
(RIR) Search
draft-ietf-regext-rdap-rir-search-19
Abstract
The Registration Data Access Protocol (RDAP) is used by Regional
Internet Registries (RIRs) and Domain Name Registries (DNRs) to
provide access to their resource registration information. The core
specifications for RDAP define basic search functionality, but there
are various search options related to IP addresses, IP prefixes, and
ASNs, which are provided by RIRs via their Whois services, but for
which there is no corresponding RDAP functionality. This document
extends RDAP to support those search options.
Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
working documents as Internet-Drafts. The list of current Internet-
Drafts is at https://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
This Internet-Draft will expire on 6 December 2025.
Copyright Notice
Copyright (c) 2025 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents (https://trustee.ietf.org/
license-info) in effect on the date of publication of this document.
Please review these documents carefully, as they describe your rights
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and restrictions with respect to this document. Code Components
extracted from this document must include Revised BSD License text as
described in Section 4.e of the Trust Legal Provisions and are
provided without warranty as described in the Revised BSD License.
Table of Contents
1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3
1.1. Conventions Used in This Document . . . . . . . . . . . . 3
2. Basic Searches . . . . . . . . . . . . . . . . . . . . . . . 4
2.1. Path Segments . . . . . . . . . . . . . . . . . . . . . . 4
2.2. IP Network Search . . . . . . . . . . . . . . . . . . . . 4
2.3. Autonomous System Number Search . . . . . . . . . . . . . 5
3. Relation Searches . . . . . . . . . . . . . . . . . . . . . . 5
3.1. Path Segments . . . . . . . . . . . . . . . . . . . . . . 6
3.2. Relation Search . . . . . . . . . . . . . . . . . . . . . 7
3.2.1. Definitions . . . . . . . . . . . . . . . . . . . . . 7
3.2.2. Relations . . . . . . . . . . . . . . . . . . . . . . 10
3.2.2.1. Single-Result Searches . . . . . . . . . . . . . 11
3.2.2.2. Multiple-Result Searches . . . . . . . . . . . . 11
3.3. Status . . . . . . . . . . . . . . . . . . . . . . . . . 11
3.4. Link Relations . . . . . . . . . . . . . . . . . . . . . 13
4. Responding To Searches . . . . . . . . . . . . . . . . . . . 17
4.1. Single-Result Searches . . . . . . . . . . . . . . . . . 18
4.2. Multiple-Result Searches . . . . . . . . . . . . . . . . 18
5. Reverse Search . . . . . . . . . . . . . . . . . . . . . . . 20
6. RDAP Conformance . . . . . . . . . . . . . . . . . . . . . . 21
7. Operational Considerations . . . . . . . . . . . . . . . . . 22
8. Privacy Considerations . . . . . . . . . . . . . . . . . . . 23
9. Security Considerations . . . . . . . . . . . . . . . . . . . 23
10. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 23
10.1. RDAP Extensions Registry . . . . . . . . . . . . . . . . 23
10.1.1. rirSearch1 . . . . . . . . . . . . . . . . . . . . . 23
10.1.2. ips . . . . . . . . . . . . . . . . . . . . . . . . 23
10.1.3. autnums . . . . . . . . . . . . . . . . . . . . . . 24
10.1.4. ipSearchResults . . . . . . . . . . . . . . . . . . 24
10.1.5. autnumSearchResults . . . . . . . . . . . . . . . . 24
10.2. Link Relations Registry . . . . . . . . . . . . . . . . 24
10.2.1. rdap-up . . . . . . . . . . . . . . . . . . . . . . 24
10.2.2. rdap-down . . . . . . . . . . . . . . . . . . . . . 24
10.2.3. rdap-top . . . . . . . . . . . . . . . . . . . . . . 25
10.2.4. rdap-bottom . . . . . . . . . . . . . . . . . . . . 25
10.2.5. rdap-active . . . . . . . . . . . . . . . . . . . . 25
10.3. RDAP Reverse Search Registry . . . . . . . . . . . . . . 25
10.3.1. fn . . . . . . . . . . . . . . . . . . . . . . . . . 25
10.3.2. handle . . . . . . . . . . . . . . . . . . . . . . . 25
10.3.3. email . . . . . . . . . . . . . . . . . . . . . . . 26
10.3.4. role . . . . . . . . . . . . . . . . . . . . . . . . 26
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10.4. RDAP Reverse Search Mapping Registry . . . . . . . . . . 26
10.4.1. fn . . . . . . . . . . . . . . . . . . . . . . . . . 26
10.4.2. handle . . . . . . . . . . . . . . . . . . . . . . . 26
10.4.3. email . . . . . . . . . . . . . . . . . . . . . . . 27
10.4.4. role . . . . . . . . . . . . . . . . . . . . . . . . 27
11. Implementation Status . . . . . . . . . . . . . . . . . . . . 27
11.1. APNIC RDAP Implementation . . . . . . . . . . . . . . . 28
11.2. RIPE NCC RDAP Implementation . . . . . . . . . . . . . . 28
12. Acknowledgements . . . . . . . . . . . . . . . . . . . . . . 28
13. References . . . . . . . . . . . . . . . . . . . . . . . . . 28
13.1. Normative References . . . . . . . . . . . . . . . . . . 28
13.2. Informative References . . . . . . . . . . . . . . . . . 29
Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . 30
1. Introduction
The Registration Data Access Protocol (RDAP) [RFC7480] is used by
Regional Internet Registries (RIRs) and Domain Name Registries (DNRs)
to provide access to their resource registration information. The
core specifications for RDAP define basic search functionality, but
this is limited to domains, nameservers, and entities. No searches
were defined for IP networks or autonomous system numbers. In an
effort to have RDAP reach feature parity with the existing RIR Whois
[RFC3912] services in this respect, this document defines additional
search options for IP networks and autonomous system numbers.
While this document is in terms of RIRs and DNRs for the sake of
consistency with earlier RDAP documents such as [RFC9082] and
[RFC9083], the functionality described here may be used by any RDAP
server operator that hosts Internet Number Resource (INR) objects.
1.1. Conventions Used in This Document
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in BCP
14 [RFC2119] [RFC8174] when, and only when, they appear in all
capitals, as shown here.
Indentation and whitespace in examples are provided only to
illustrate element relationships, and are not a required feature of
this protocol.
"..." in examples is used as shorthand for elements defined outside
of this document, as well as to abbreviate elements that are too
long.
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2. Basic Searches
2.1. Path Segments
The new resource type path segments for basic search (similar to the
searches defined in [RFC9082] and [RFC9083]) are:
'ips': Used to identify an IP network search using a pattern to
match one of a set of IP network attributes.
'autnums': Used to identify an autonomous system number search
using a pattern to match one of a set of autonomous system number
attributes.
A search pattern matches a value where it equals the string
representation of the value, or where it is a match for the value in
accordance with the use of the asterisk ('*', US-ASCII value 0x2A)
character for partial string matching as defined in Section 4.1 of
[RFC9082]. For most searches, '*' may be used to match trailing
characters only, and may appear in a search only once: see the
previously-mentioned section for a complete definition of the
relevant behaviour.
Section 4.1 of [RFC9082] describes the use of a trailing domain label
suffix in a partial string search. It is not necessary that servers
support this type of search pattern for the basic searches defined in
this document, since those searches do not relate to domain name
members.
2.2. IP Network Search
Syntax: ips?handle=<handle search pattern>
Syntax: ips?name=<name search pattern>
Searches for IP network (see Section 5.4 of [RFC9083]) information by
handle are specified using the form:
ips?handle=XXXX
XXXX is a search pattern representing an IP network identifier whose
syntax is specific to the registration provider. The following URL
would be used to find information for IP networks with handles
matching the "NET-199*" pattern:
https://example.com/rdap/ips?handle=NET-199*
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Searches for IP network (see Section 5.4 of [RFC9083]) information by
name are specified using the form:
ips?name=XXXX
XXXX is a search pattern representing an IP network identifier that
is assigned to the network registration by the registration holder.
The following URL would be used to find information for IP networks
with names matching the "NET-EXAMPLE-*" pattern:
https://example.com/rdap/ips?name=NET-EXAMPLE-*
2.3. Autonomous System Number Search
Syntax: autnums?handle=<handle search pattern>
Syntax: autnums?name=<name search pattern>
Searches for autonomous system number (see Section 5.5 of [RFC9083])
information by handle are specified using the form:
autnums?handle=XXXX
XXXX is a search pattern representing an autonomous system number
identifier whose syntax is specific to the registration provider.
The following URL would be used to find information for autonomous
system numbers with handles matching the "AS1*" pattern:
https://example.com/rdap/autnums?handle=AS1*
Searches for autonomous system number (see Section 5.5 of [RFC9083])
information by name are specified using the form:
autnums?name=XXXX
XXXX is a search pattern representing an autonomous system number
identifier that is assigned to the autonomous system number
registration by the registration holder. The following URL would be
used to find information for autonomous system numbers with names
matching the "ASN-EXAMPLE-*" pattern:
https://example.com/rdap/autnums?name=ASN-EXAMPLE-*
3. Relation Searches
This section defines searches and link relations for finding objects
and sets of objects with respect to their position within a
hierarchy.
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3.1. Path Segments
The variables used in the path segments in this section include:
<relation>: A relation type, as defined in Section 3.2.2 of this
document.
<IP address>: An IP address, as defined in Section 3.1.1 of
[RFC9082].
<CIDR prefix>: The first address of a CIDR block, as defined in
Section 3.1.1 of [RFC9082].
<CIDR length>: The prefix length for a CIDR block, as defined in
Section 3.1.1 of [RFC9082].
<domain name>: A fully-qualified domain name, as defined in
Section 3.1.3 of [RFC9082].
<autonomous system number or range>: An autonomous system number,
as defined in Section 3.1.2 of [RFC9082], or two such numbers
separated by a single hyphen ('-', US-ASCII value 0x2D), where the
second number is greater than the first.
<resource type search path segment>: A search path segment
corresponding to an Internet Number Resource (INR) object class
(i.e. an IP network address or range, autonomous system number or
number range, or reverse domain name).
<object value>: a value used to identify an object for the
purposes of a relation search relative to that object. One of <IP
address>, <CIDR prefix> and <CIDR length> pair, <domain name>, or
<autonomous system number or range>, depending on the type of
search that is being performed.
<status>: an object status value, as defined in Section 4.6 of
[RFC9083].
The new resource type path segments for relation search (similar to
the searches defined in [RFC9082] and [RFC9083]) are:
'ips/rirSearch1/<relation>/<IP address>': Used to identify an IP
network search using a relation and an IP address to match a set
of IP networks.
'ips/rirSearch1/<relation>/<CIDR prefix>/<CIDR length>': Used to
identify an IP network search using a relation and an IP address
range to match a set of IP networks.
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'autnums/rirSearch1/<relation>/<autonomous system number or
range>': Used to identify an autonomous system number search using
a relation and a single ASN or an ASN range to match a set of ASN
objects.
'domains/rirSearch1/<relation>/<domain name>': Used to identify a
reverse domain search using a relation and a reverse domain name
to match a set of reverse domains.
3.2. Relation Search
Syntax: <resource type search path
segment>/rirSearch1/<relation>/<object value>[?status=<status>]
The relation searches defined in this document rely on the syntax
described above. Each search works in the same way for each object
class.
The rirSearch1 path segment is used in the relation search URLs in
order to provide a single namespace for those searches, and so that
other searches can be defined underneath the top-level resource type
search path segments.
3.2.1. Definitions
An INR object value may have a "parent" object and one or more
"child" objects. The "parent" object is the next-least-specific
object that exists in the relevant registry, while the "child"
objects are the next-most-specific objects that exist in the relevant
registry. For example, for a registry with the following IP network
objects:
+--------------+
| 192.0.2.0/24 |
+--------------+
/ \
+--------------+ +----------------+
| 192.0.2.0/25 | | 192.0.2.128/25 |
+--------------+ +----------------+
/ / \
+--------------+ +----------------+ +----------------+
| 192.0.2.0/28 | | 192.0.2.128/26 | | 192.0.2.192/26 |
+--------------+ +----------------+ +----------------+
/
+--------------+
| 192.0.2.0/32 |
+--------------+
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Figure 1: Example registry objects
the INR object value to parent/child object relationships are:
+==================+================+
| INR object value | Parent object |
+==================+================+
| 192.0.2.0/32 | 192.0.2.0/28 |
+------------------+----------------+
| 192.0.2.0/28 | 192.0.2.0/25 |
+------------------+----------------+
| 192.0.2.64/26 | 192.0.2.0/25 |
+------------------+----------------+
| 192.0.2.128/26 | 192.0.2.128/25 |
+------------------+----------------+
| 192.0.2.192/26 | 192.0.2.128/25 |
+------------------+----------------+
| 192.0.2.0/25 | 192.0.2.0/24 |
+------------------+----------------+
| 192.0.2.128/25 | 192.0.2.0/24 |
+------------------+----------------+
| 192.0.2.0/24 | N/A |
+------------------+----------------+
Table 1: Parent objects
+==================+================================+
| INR object value | Child objects |
+==================+================================+
| 192.0.2.0/24 | 192.0.2.0/25, 192.0.2.128/25 |
+------------------+--------------------------------+
| 192.0.2.0/25 | 192.0.2.0/28 |
+------------------+--------------------------------+
| 192.0.2.128/25 | 192.0.2.128/26, 192.0.2.192/26 |
+------------------+--------------------------------+
| 192.0.2.64/26 | N/A |
+------------------+--------------------------------+
| 192.0.2.128/26 | N/A |
+------------------+--------------------------------+
| 192.0.2.192/26 | N/A |
+------------------+--------------------------------+
| 192.0.2.0/28 | 192.0.2.0/32 |
+------------------+--------------------------------+
| 192.0.2.0/32 | N/A |
+------------------+--------------------------------+
Table 2: Child objects
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(INR object values do not necessarily correspond to registry objects,
because users can provide arbitrary object values as input to the
searches defined in this document.)
Similarly to the parent/child object relationships, each INR object
value may have a "top" object, being the least-specific covering
object that exists in the registry, and one or more "bottom" objects,
being the most-specific objects that entirely cover the INR object
value when taken together. Given the registry defined in the
previous paragraph, the top and bottom object relationships are:
+==================+==============+
| INR object value | Top object |
+==================+==============+
| 192.0.2.0/32 | 192.0.2.0/24 |
+------------------+--------------+
| 192.0.2.0/28 | 192.0.2.0/24 |
+------------------+--------------+
| 192.0.2.64/26 | 192.0.2.0/24 |
+------------------+--------------+
| 192.0.2.128/26 | 192.0.2.0/24 |
+------------------+--------------+
| 192.0.2.192/26 | 192.0.2.0/24 |
+------------------+--------------+
| 192.0.2.0/25 | 192.0.2.0/24 |
+------------------+--------------+
| 192.0.2.128/25 | 192.0.2.0/24 |
+------------------+--------------+
| 192.0.2.0/24 | N/A |
+------------------+--------------+
Table 3: Top objects
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+==================+===========================================+
| INR object value | Bottom objects |
+==================+===========================================+
| 192.0.2.0/24 | 192.0.2.0/25, 192.0.2.0/28, 192.0.2.0/32, |
| | 192.0.2.128/26, 192.0.2.192/26 |
+------------------+-------------------------------------------+
| 192.0.2.0/25 | 192.0.2.0/25, 192.0.2.0/28, 192.0.2.0/32 |
+------------------+-------------------------------------------+
| 192.0.2.128/25 | 192.0.2.128/26, 192.0.2.192/26 |
+------------------+-------------------------------------------+
| 192.0.2.64/26 | N/A |
+------------------+-------------------------------------------+
| 192.0.2.128/26 | N/A |
+------------------+-------------------------------------------+
| 192.0.2.192/26 | N/A |
+------------------+-------------------------------------------+
| 192.0.2.0/28 | 192.0.2.0/28, 192.0.2.0/32 |
+------------------+-------------------------------------------+
| 192.0.2.0/31 | 192.0.2.0/28, 192.0.2.0/32 |
+------------------+-------------------------------------------+
| 192.0.2.0/32 | N/A |
+------------------+-------------------------------------------+
Table 4: Bottom objects
If there are no more-specific objects for a given INR object value,
then the set of bottom objects for that INR object value will be
empty. 192.0.2.0/32 is an example of such an INR object value.
It is not necessarily the case that the bottom objects for a given
INR object value will be disjoint. For example, 192.0.2.0/28's
bottom objects are 192.0.2.0/28 and 192.0.2.0/32. 192.0.2.0/32 is
included because it is one of the most-specific objects (i.e. an
object at the bottom of the object hierarchy) for 192.0.2.0/28, while
192.0.2.0/28 itself is included because it is the most-specific
object for the other addresses within the range (i.e. those aside
from 192.0.2.0/32).
The bottom objects for a given INR object value may include an object
that is less-specific than that INR object value. For example,
192.0.2.0/31 is an INR object value that has a more-specific object,
being 192.0.2.0/32, so the set of bottom objects must include at
least that object. The most-specific object that covers the residual
(i.e. 192.0.2.1/32) is 192.0.2.0/28, so it is included in the results
as well.
3.2.2. Relations
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3.2.2.1. Single-Result Searches
3.2.2.1.1. "rdap-up"
If the server receives a search containing the relation value "rdap-
up", it will return the parent object for the specified INR object
value as though that object had been requested directly. If no such
object exists, it will respond with a HTTP 404 (Not Found) [RFC9110]
search response.
3.2.2.1.2. "rdap-top"
If the server receives a search containing the relation value "rdap-
top", it will return the top object for the specified INR object
value as though that object had been requested directly. If no such
object exists, it will respond with an HTTP 404 (Not Found) [RFC9110]
search response.
3.2.2.2. Multiple-Result Searches
3.2.2.2.1. "rdap-down"
If the server receives a search containing the relation value "rdap-
down", it will return the child objects for the specified INR object
value. If no such objects exist, it will return an empty search
response. Per the definitions section, this includes only immediate
child objects.
3.2.2.2.2. "rdap-bottom"
If the server receives a search containing the relation value "rdap-
bottom", it will return the bottom objects for the specified INR
object value. If no such objects exist, it will return an empty
search response.
3.3. Status
If the "status" argument is provided, then response processing will
proceed as though all objects without the specified status had first
been removed from the database. For example, if the registry objects
from section 3.2.1 had the following statuses:
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+================+==========+
| Object | Status |
+================+==========+
| 192.0.2.0/25 | active |
+----------------+----------+
| 192.0.2.128/25 | inactive |
+----------------+----------+
| 192.0.2.128/26 | active |
+----------------+----------+
| 192.0.2.192/26 | active |
+----------------+----------+
Table 5: Statuses
then a server receiving a "rdap-down" search request with the INR
object value 192.0.2.0/24 and a "status" argument of "active" would
return the objects 192.0.2.0/25, 192.0.2.128/26, and 192.0.2.192/26.
Status filtering is useful, for example, where the client is trying
to find the delegation from an RIR to an RIR account holder: by using
the "rdap-top" relation with a "status" of "active", the delegation
from IANA to the RIR will be ignored, and the client will receive the
delegation from the RIR to the account holder in the response
instead.
By default, any valid status value may be used for status filtering.
Server operators MAY opt not to support "status" filtering for the
"rdap-down" and "rdap-bottom" link relations, in which case the
server responds with an HTTP 501 (Not Implemented) [RFC9110] response
code if it receives such a request. Server operators MAY also opt
not to support "status" filtering for values other than "active" for
the "rdap-up" and "rdap-top" link relations, in which case the server
responds with an HTTP 501 (Not Implemented) [RFC9110] response code
if it receives such a request.
While any valid status value may be used for status filtering, a
given RDAP server may make use of only a small number of those status
values for INR objects. For example, a status value like "client
hold" would typically only be used by a DNR for a forward domain name
object.
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3.4. Link Relations
Each of the relations defined in section 3.2.2 has a corresponding
link relation that can be used for a link object contained within
another RDAP object. When constructing these link objects, the
server MUST use the corresponding search URL for the link target, or
a URL that yields the same response as for the corresponding search
as at the time of the request. The following is an elided example of
an IPv4 response that makes use of those link relations:
{
"startAddress": "192.0.2.0",
"endAddress": "192.0.2.127",
...
"links": [
...,
{
"value": "https://example.com/rdap/ip/192.0.2.0/25",
"rel": "rdap-up",
"href": ".../rdap/ips/rirSearch1/rdap-up/192.0.2.0/25",
"type": "application/rdap+json"
},
{
"value": "https://example.com/rdap/ip/192.0.2.0/25",
"rel": "rdap-down",
"href": ".../rdap/ips/rirSearch1/rdap-down/192.0.2.0/25",
"type": "application/rdap+json"
},
{
"value": "https://example.com/rdap/ip/192.0.2.0/25",
"rel": "rdap-top",
"href": ".../rdap/ips/rirSearch1/rdap-top/192.0.2.0/25",
"type": "application/rdap+json"
},
{
"value": "https://example.com/rdap/ip/192.0.2.0/25",
"rel": "rdap-bottom",
"href": ".../rdap/ips/rirSearch1/rdap-bottom/192.0.2.0/25",
"type": "application/rdap+json"
}
]
}
Figure 2: Example links in an IPv4 response
The following is an elided example of an IPv6 response that makes use
of the link relations:
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{
"startAddress": "2001:db8:a::",
"endAddress": "2001:db8:a:ffff:ffff:ffff:ffff:ffff",
...
"links": [
...,
{
"value": "https://example.com/rdap/ip/2001:db8:a::/48",
"rel": "rdap-up",
"href": ".../rdap/ips/rirSearch1/rdap-up/2001:db8:a::/48",
"type": "application/rdap+json"
},
{
"value": "https://example.com/rdap/ip/2001:db8:a::/48",
"rel": "rdap-down",
"href": ".../rdap/ips/rirSearch1/rdap-down/2001:db8:a::/48",
"type": "application/rdap+json"
},
{
"value": "https://example.com/rdap/ip/2001:db8:a::/48",
"rel": "rdap-top",
"href": ".../rdap/ips/rirSearch1/rdap-top/2001:db8:a::/48",
"type": "application/rdap+json"
},
{
"value": "https://example.com/rdap/ip/2001:db8:a::/48",
"rel": "rdap-bottom",
"href": ".../rdap/ips/rirSearch1/rdap-bottom/2001:db8:a::/48",
"type": "application/rdap+json"
}
]
}
Figure 3: Example links in an IPv6 response
One additional link relation, "rdap-active", is defined for denoting
a search with a "status" of "active". No other status link relations
are defined, because the only known use cases for status filtering
involve the "rdap-up" and "rdap-top" relations and the "active"
status. The following is an elided example of an IPv4 response that
makes use of those link relations:
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{
"startAddress": "192.0.2.0",
"endAddress": "192.0.2.127",
...
"links": [
...,
{
"value": "https://example.com/rdap/ip/192.0.2.0/25",
"rel": "rdap-up rdap-active",
"href":
".../rdap/ips/rirSearch1/rdap-up/192.0.2.0/25?status=active",
"type": "application/rdap+json"
},
{
"value": "https://example.com/rdap/ip/192.0.2.0/25",
"rel": "rdap-top rdap-active",
"href":
".../rdap/ips/rirSearch1/rdap-top/192.0.2.0/25?status=active",
"type": "application/rdap+json"
}
]
}
Figure 4: Example status links in an IPv4 response
The following is an elided example of an IPv6 response that makes use
of the link relations:
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{
"startAddress": "2001:db8:a::",
"endAddress": "2001:db8:a:ffff:ffff:ffff:ffff:ffff",
...
"links": [
...,
{
"value": "https://example.com/rdap/ip/2001:db8:a::/48",
"rel": "rdap-up rdap-active",
"href":
".../rdap/ips/rirSearch1/rdap-up/2001:db8:a::/48?status=active",
"type": "application/rdap+json"
},
{
"value": "https://example.com/rdap/ip/2001:db8:a::/48",
"rel": "rdap-top rdap-active",
"href":
".../rdap/ips/rirSearch1/rdap-top/2001:db8:a::/48?status=active",
"type": "application/rdap+json"
}
]
}
Figure 5: Example status links in an IPv6 response
"rdap-active" is used only as a link relation in a link object. It
cannot be used as a value for <relation> in the relation search URL
defined in Section 3.2. Section 3.3 details status filtering for
relation search URLs.
Since the "rdap-top" and "rdap-up" link relations resolve either to a
single object or to an HTTP 404 (Not Found) [RFC9110] response, it is
possible for a server to use a lookup URL (see Section 3.1 of
[RFC9082]) in the "href" attribute in the link object. The following
is an elided example of an IPv4 response that uses this approach:
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{
"startAddress": "192.0.2.0",
"endAddress": "192.0.2.127",
...
"links": [
...,
{
"value": "https://example.com/rdap/ip/192.0.2.0/25",
"rel": "rdap-up",
"href": "https://example.com/rdap/ip/192.0.2.0/24",
"type": "application/rdap+json"
}
]
}
Figure 6: Example single-result links in an IPv4 response
The following is an elided example of an IPv6 response that makes use
of the approach:
{
"startAddress": "2001:db8:a::",
"endAddress": "2001:db8:a:ffff:ffff:ffff:ffff:ffff",
...
"links": [
...,
{
"value": "https://example.com/rdap/ip/2001:db8:a::/48",
"rel": "rdap-up",
"href": "https://example.com/rdap/ip/2001:db8::/32",
"type": "application/rdap+json"
}
]
}
Figure 7: Example single-result links in an IPv6 response
Use of these link relations in responses is OPTIONAL. The absence in
a response of a link for a specific relation does not necessarily
mean that the corresponding search will return no results.
4. Responding To Searches
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4.1. Single-Result Searches
The "rdap-up" and "rdap-top" relations are single-result searches.
When processing these searches, if there is a result for the search,
the server returns that object as though it were requested directly
via a lookup URL (see Section 3.1 of [RFC9082]). If there is no
result for the search, the server returns an HTTP 404 (Not Found)
[RFC9110] response code.
4.2. Multiple-Result Searches
The "rdap-down" and "rdap-bottom" relations are multiple-result
searches. As with [RFC9083], responses for these searches take the
form of an array of object instances, where each instance is an
appropriate object class for the search (i.e., a search beginning
with /ips yields an array of IP network object instances, and a
search beginning with /autnums yields an array of autonomous system
number object instances). The IP network object class is defined in
Section 5.4 of [RFC9083], and the autonomous system number object
class is defined in Section 5.5 of [RFC9083]. The object instance
arrays are contained within the response object.
The names of the arrays are as follows:
for /ips searches, the array is "ipSearchResults"; and
for /autnums searches, the array is "autnumSearchResults".
The following is an elided example of a response for an IPv4 network
search:
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{
"rdapConformance": [ "rdap_level_0", "rirSearch1",
"ips", "ipSearchResults", ... ],
...
"ipSearchResults": [
{
"objectClassName": "ip network",
"handle": "XXXX-RIR",
"startAddress": "192.0.2.0",
"endAddress": "192.0.2.127",
...
},
{
"objectClassName": "ip network",
"handle": "YYYY-RIR",
"startAddress": "192.0.2.0",
"endAddress": "192.0.2.255",
...
}
]
}
Figure 8: IPv4 network search response
The following is an elided example of a response for an IPv6 network
search:
{
"rdapConformance": [ "rdap_level_0", "rirSearch1",
"ips", "ipSearchResults", ... ],
...
"ipSearchResults": [
{
"objectClassName": "ip network",
"handle": "XXXX-RIR",
"startAddress": "2001:db8:a::",
"endAddress": "2001:db8:a:ffff:ffff:ffff:ffff:ffff",
...
},
{
"objectClassName": "ip network",
"handle": "YYYY-RIR",
"startAddress": "2001:db8::",
"endAddress": "2001:db8:ffff:ffff:ffff:ffff:ffff:ffff",
...
}
]
}
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Figure 9: IPv6 network search response
The following is an elided example of a response to an autonomous
system number search:
{
"rdapConformance": [ "rdap_level_0", "rirSearch1",
"autnums", "autnumSearchResults", ... ],
...
"autnumSearchResults": [
{
"objectClassName": "autnum",
"handle": "XXXX-RIR",
"startAutnum": 64496,
"endAutnum": 64496,
...
},
{
"objectClassName": "autnum",
"handle": "YYYY-RIR",
"startAutnum": "64497",
"endAutnum": "64497",
...
}
]
}
Figure 10: ASN search response
Responses for relation searches for reverse domain objects have the
same form as for a standard domain search response, per [RFC9083].
If the search can be processed by the server, but there are no
results for the search, then the server returns an HTTP 404 (Not
Found) [RFC9110] response code, with the body of the response
containing an empty results array.
5. Reverse Search
RDAP reverse search is defined by [RFC9536]. That document limits
reverse search to domains, nameservers, and entities. This document
extends reverse search to cover IP networks and autonomous system
numbers as well.
If a server receives a reverse search query with a searchable
resource type (per the definition of that term in [RFC9536]) of
"ips", then the reverse search will be performed on the IP network
objects from its data store. Similarly, if a server receives a
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reverse search query with a searchable resource type of "autnums",
then the reverse search will be performed on the autonomous system
number objects from its data store.
Additionally, Section 10 includes requests to register new entries
for IP network and autonomous system number searches in the RDAP
Reverse Search and RDAP Reverse Search Mapping IANA registries.
6. RDAP Conformance
A server that supports the functionality specified in this document
MUST include additional string literals in the rdapConformance array
of its responses, in accordance with the following:
* any response that includes an IP network basic search link, an IP
network relation search link, or an IP network reverse search link
includes the "rirSearch1" and "ips" literals;
* any response for an IP network basic search request, an IP network
relation search request, or an IP network reverse search request
includes the "rirSearch1", "ips", and "ipSearchResults" literals;
* any response that includes an ASN basic search link, an ASN
relation search link, or an ASN reverse search link includes the
"rirSearch1" and "autnums" literals;
* any response for an ASN basic search request, an ASN relation
search request, or an ASN reverse search request includes the
"rirSearch1", "autnums", and "autnumSearchResults" literals;
* any response that includes a domain relation search link includes
the "rirSearch1" literal;
* any response for a domain relation search request includes the
"rirSearch1" literal; and
* a response to a "/help" request includes the "rirSearch1", "ips",
"ipSearchResults", "autnums", and "autnumSearchResults" literals.
Although responses will generally not include all of the
rdapConformance string literals defined in this document, that is not
meant to imply that a server can support only a portion of the
functionality defined in this document.
The "ips", "autnums", "ipSearchResults", and "autnumSearchResults"
extension identifiers are included here due to the requirements and
recommendations set out in [RFC7480], [RFC9082], and [RFC9083].
These requirements and recommendations are such that an RDAP
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extension identifier be used as a prefix in new path segments and
JSON members introduced by the extension, and those strings are used
as such as part of the basic searches defined in this document.
Furthermore, using these strings as path segments helps to increase
consistency among the basic searches for the core RDAP object
classes.
As with the other core object classes (entity, domain, and
nameserver), other documents may define additional reverse searches
with IP networks and ASNs as the searchable resource type by
registering those in the IANA RDAP reverse search registries.
Because a given extension identifier must correspond to a single
extension, though, any document making use of IP networks or ASNs as
the searchable resource type must also implement the functionality
described in this document.
The "1" in "rirSearch1" denotes that this is version 1 of the RIR
search extension. New versions of the RIR search extension will use
different extension identifiers. A version suffix is not used for
the remaining identifiers defined by this document, partly because
such a suffix would reduce consistency with the corresponding
functionality for the other core object classes, and partly because
it is very unlikely that the functionality associated with those
identifiers will change.
7. Operational Considerations
When using a link object for a single-result search, a server may
replace a search URL with a lookup URL, because the behaviour of the
lookup URL is the same as for the search URL as at the time when the
response is generated. One difference between these approaches is
that when using the lookup URL, the server is effectively performing
the search on behalf of the client as at the time of response
generation. If there is no change to the relevant database state
between the time when the original response is generated and the time
when the client resolves the link relation target, then the search
URL and the lookup URL will lead to the same result. However, if
there is a change to the relevant database state, then the lookup URL
may lead to a different result from that of the search URL. Server
operators should consider which type of URL will be more effective
for their clients when implementing this specification.
Where this document includes HTTP reason phrases, that is purely for
the benefit of the reader, and is not an indication that those
phrases need to be used as-is in responses.
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8. Privacy Considerations
The search functionality defined in this document may affect the
privacy of entities in the registry (and elsewhere) in various ways:
see [RFC6973] for a general treatment of privacy in protocol
specifications, and [RFC7481] for specific discussion about privacy
threats with respect to the registration data provided by RDAP.
Server operators should be aware of the tradeoffs that result from
implementation of this functionality.
Many jurisdictions have laws or regulations that restrict the use of
"Personal Data", per the definition in [RFC6973]. Given that, server
operators should ascertain whether the regulatory environment in
which they operate permits implementation of the functionality
defined in this document.
9. Security Considerations
[RFC7481] describes security requirements and considerations for RDAP
generally. Additionally, guidance as to the use of TLS has changed
since that document was published: see [RFC8446] and [BCP195] for
further detail.
[RFC9082] includes security considerations relating to object
retrieval in RDAP. Those considerations are relevant here as well.
10. IANA Considerations
10.1. RDAP Extensions Registry
IANA is requested to register the following values in the RDAP
Extensions Registry (https://www.iana.org/assignments/rdap-
extensions/rdap-extensions.xhtml).
10.1.1. rirSearch1
Extension identifier: rirSearch1
Registry operator: Any
Published specification: [this document]
Contact: IETF <iesg@ietf.org>
Intended usage: This extension identifier is used for INR-specific
search operations.
10.1.2. ips
Extension identifier: ips
Registry operator: Any
Published specification: [this document]
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Contact: IETF <iesg@ietf.org>
Intended usage: This extension identifier is used for INR-specific
search operations.
10.1.3. autnums
Extension identifier: autnums
Registry operator: Any
Published specification: [this document]
Contact: IETF <iesg@ietf.org>
Intended usage: This extension identifier is used for INR-specific
search operations.
10.1.4. ipSearchResults
Extension identifier: ipSearchResults
Registry operator: Any
Published specification: [this document]
Contact: IETF <iesg@ietf.org>
Intended usage: This extension identifier is used for INR-specific
search operations.
10.1.5. autnumSearchResults
Extension identifier: autnumSearchResults
Registry operator: Any
Published specification: [this document]
Contact: IETF <iesg@ietf.org>
Intended usage: This extension identifier is used for INR-specific
search operations.
10.2. Link Relations Registry
IANA is requested to register the following values in the Link
Relations Registry (https://www.iana.org/assignments/link-relations/
link-relations.xhtml).
10.2.1. rdap-up
Relation Name: rdap-up
Description: Refers to an RDAP parent object in a hierarchy of
objects.
Reference: [this document]
10.2.2. rdap-down
Relation Name: rdap-down
Description: Refers to a set of RDAP child objects in a hierarchy of
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objects.
Reference: [this document]
10.2.3. rdap-top
Relation Name: rdap-top
Description: Refers to the topmost RDAP parent object in a hierarchy
of objects.
Reference: [this document]
10.2.4. rdap-bottom
Relation Name: rdap-bottom
Description: Refers to the set of child RDAP objects that do not
themselves have child objects, in a hierarchy of objects.
Reference: [this document]
10.2.5. rdap-active
Relation Name: rdap-active
Description: The target is for an RDAP RIR search that filters for
the status "active".
Reference: [this document]
10.3. RDAP Reverse Search Registry
IANA is requested to register the following entries in the RDAP
Reverse Search (https://www.iana.org/assignments/rdap-reverse-search/
rdap-reverse-search.xhtml) registry.
10.3.1. fn
Property: fn
Description: The server supports the IP/autnum search based on the
full name (a.k.a formatted name) of an associated entity.
Searchable Resource Type: ips, autnums
Related Resource Type: entity
Registrant: IETF
Contact Information: iesg@ietf.org
Reference: [this document]
10.3.2. handle
Property: handle
Description: The server supports the IP/autnum search based on the
handle of an associated entity.
Searchable Resource Type: ips, autnums
Related Resource Type: entity
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Registrant: IETF
Contact Information: iesg@ietf.org
Reference: [this document]
10.3.3. email
Property: email
Description: The server supports the IP/autnum search based on the
email address of an associated entity.
Searchable Resource Type: ips, autnums
Related Resource Type: entity
Registrant: IETF
Contact Information: iesg@ietf.org
Reference: [this document]
10.3.4. role
Property: role
Description: The server supports the IP/autnum search based on the
role of an associated entity.
Searchable Resource Type: ips, autnums
Related Resource Type: entity
Registrant: IETF
Contact Information: iesg@ietf.org
Reference: [this document]
10.4. RDAP Reverse Search Mapping Registry
IANA is requested to register the following entries in the RDAP
Reverse Search Mapping (https://www.iana.org/assignments/rdap-
reverse-search-mapping/rdap-reverse-search-mapping.xhtml) registry.
10.4.1. fn
Property: fn
Property Path: $.entities[*].vcardArray[1][?(@[0]=='fn')][3]
Searchable Resource Type: ips, autnums
Related Resource Type: entity
Registrant: IETF
Contact Information: iesg@ietf.org
Reference: [this document]
10.4.2. handle
Property: handle
Property Path: $.entities[*].handle
Searchable Resource Type: ips, autnums
Related Resource Type: entity
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Registrant: IETF
Contact Information: iesg@ietf.org
Reference: [this document]
10.4.3. email
Property: email
Property Path: $.entities[*].vcardArray[1][?(@[0]=='email')][3]
Searchable Resource Type: ips, autnums
Related Resource Type: entity
Registrant: IETF
Contact Information: iesg@ietf.org
Reference: [this document]
10.4.4. role
Property: role
Property Path: $.entities[*].roles
Searchable Resource Type: ips, autnums
Related Resource Type: entity
Registrant: IETF
Contact Information: iesg@ietf.org
Reference: [this document]
11. Implementation Status
| Note to the RFC Editor - remove this section before
| publication, as well as the reference to RFC 7942.
This section records the status of known implementations of the
protocol defined by this specification at the time of posting of this
Internet-Draft, and is based on a proposal described in [RFC7942].
The description of implementations in this section is intended to
assist the IETF in its decision processes in progressing drafts to
RFCs. Please note that the listing of any individual implementation
here does not imply endorsement by the IETF. Furthermore, no effort
has been spent to verify the information presented here that was
supplied by IETF contributors. This is not intended as, and must not
be construed to be, a catalogue of available implementations or their
features. Readers are advised to note that other implementations may
exist.
According to [RFC7942], "this will allow reviewers and working groups
to assign due consideration to documents that have the benefit of
running code, which may serve as evidence of valuable experimentation
and feedback that have made the implemented protocols more mature.
It is up to the individual working groups to use this information as
they see fit".
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11.1. APNIC RDAP Implementation
* Responsible Organization: Asia-Pacific Network Information Centre
(APNIC)
* Location: https://github.com/APNIC-net/rdap-rmp-demo/tree/rir-
search
* Description: This implementation includes support for the various
searches and responses described in this document.
* Level of Maturity: This is a proof-of-concept implementation.
* Coverage: This implementation includes all of the features
described in this specification.
* Contact Information: Tom Harrison, tomh@apnic.net
11.2. RIPE NCC RDAP Implementation
* Responsible Organization: RIPE NCC
* Location: https://github.com/RIPE-NCC/whois
* Description: This implementation includes support for several of
the searches and responses as at version 14 of this document.
* Level of Maturity: This is a production implementation.
* Coverage: This implementation includes IP and domain relation
searches, as well as the links that correspond to those searches.
* Contact Information: Ed Shryane, eshryane@ripe.net
12. Acknowledgements
The authors wish to thank Mario Loffredo, Andy Newton, Antoin
Verschuren, James Gould, Scott Hollenbeck, Orie Steele, Russ Housley,
John Levine, Stewart Bryant, Mark Nottingham, Mohamed Boucadair, Deb
Cooley, Éric Vyncke, and Roman Danyliw for document review and
associated comments.
13. References
13.1. Normative References
[BCP195] Best Current Practice 195,
<https://www.rfc-editor.org/info/bcp195>.
At the time of writing, this BCP comprises the following:
Moriarty, K. and S. Farrell, "Deprecating TLS 1.0 and TLS
1.1", BCP 195, RFC 8996, DOI 10.17487/RFC8996, March 2021,
<https://www.rfc-editor.org/info/rfc8996>.
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Sheffer, Y., Saint-Andre, P., and T. Fossati,
"Recommendations for Secure Use of Transport Layer
Security (TLS) and Datagram Transport Layer Security
(DTLS)", BCP 195, RFC 9325, DOI 10.17487/RFC9325, November
2022, <https://www.rfc-editor.org/info/rfc9325>.
[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
<https://www.rfc-editor.org/info/rfc2119>.
[RFC7481] Hollenbeck, S. and N. Kong, "Security Services for the
Registration Data Access Protocol (RDAP)", STD 95,
RFC 7481, DOI 10.17487/RFC7481, March 2015,
<https://www.rfc-editor.org/info/rfc7481>.
[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
May 2017, <https://www.rfc-editor.org/info/rfc8174>.
[RFC8446] Rescorla, E., "The Transport Layer Security (TLS) Protocol
Version 1.3", RFC 8446, DOI 10.17487/RFC8446, August 2018,
<https://www.rfc-editor.org/info/rfc8446>.
[RFC9082] Hollenbeck, S. and A. Newton, "Registration Data Access
Protocol (RDAP) Query Format", STD 95, RFC 9082,
DOI 10.17487/RFC9082, June 2021,
<https://www.rfc-editor.org/info/rfc9082>.
[RFC9083] Hollenbeck, S. and A. Newton, "JSON Responses for the
Registration Data Access Protocol (RDAP)", STD 95,
RFC 9083, DOI 10.17487/RFC9083, June 2021,
<https://www.rfc-editor.org/info/rfc9083>.
[RFC9110] Fielding, R., Ed., Nottingham, M., Ed., and J. Reschke,
Ed., "HTTP Semantics", STD 97, RFC 9110,
DOI 10.17487/RFC9110, June 2022,
<https://www.rfc-editor.org/info/rfc9110>.
[RFC9536] Loffredo, M. and M. Martinelli, "Registration Data Access
Protocol (RDAP) Reverse Search", RFC 9536,
DOI 10.17487/RFC9536, April 2024,
<https://www.rfc-editor.org/info/rfc9536>.
13.2. Informative References
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[RFC3912] Daigle, L., "WHOIS Protocol Specification", RFC 3912,
DOI 10.17487/RFC3912, September 2004,
<https://www.rfc-editor.org/info/rfc3912>.
[RFC6973] Cooper, A., Tschofenig, H., Aboba, B., Peterson, J.,
Morris, J., Hansen, M., and R. Smith, "Privacy
Considerations for Internet Protocols", RFC 6973,
DOI 10.17487/RFC6973, July 2013,
<https://www.rfc-editor.org/info/rfc6973>.
[RFC7480] Newton, A., Ellacott, B., and N. Kong, "HTTP Usage in the
Registration Data Access Protocol (RDAP)", STD 95,
RFC 7480, DOI 10.17487/RFC7480, March 2015,
<https://www.rfc-editor.org/info/rfc7480>.
[RFC7942] Sheffer, Y. and A. Farrel, "Improving Awareness of Running
Code: The Implementation Status Section", BCP 205,
RFC 7942, DOI 10.17487/RFC7942, July 2016,
<https://www.rfc-editor.org/info/rfc7942>.
Authors' Addresses
Tom Harrison
Asia Pacific Network Information Centre
6 Cordelia St
South Brisbane QLD 4101
Australia
Email: tomh@apnic.net
Jasdip Singh
American Registry for Internet Numbers
PO Box 232290
Centreville, VA 20120
United States of America
Email: jasdips@arin.net
Harrison & Singh Expires 6 December 2025 [Page 30]
