The expansion and growth of the Internet has seen the registry
function of a traditionally centralized and managed Network
Information Center become the responsibility of various autonomous,
functionally disparate, and globally distributed Internet registries.
With the broadening number of Internet registries, the uses of their
administrative directory services have expanded from the original and
traditional use of the whois [6] protocol to include the use of whois
outside the scope of its specification, formal and informal
definitions of syntax, undocumented security mechanisms, the use of
other protocols, such as rwhois [5], to fulfill other needs, and
proposals for the use of other technologies such as LDAP [4] and XML.
The scope of the requirements captured in this document relate to the
directory services of Internet registries and their related
communities (Section 2.3, Section 2.4, and Section 2.5). This
scoping specifically targets the requirements of domain name
registries (Section 2.1). The requirements for other registry types
will be made available in other memos. The requirements are of both
the current use of these directory services and the desired
functionality based on input from relevant forums (Appendix B.1).
These requirements are not specific to any protocol. Terms used in
the definition of requirements in this document may be found in the
glossary (Appendix A).
The scope of the requirements in this document are also restricted to
access of data from Internet registries. Requirements for
modification, addition, or provisioning of data in Internet
registries are out of the scope of this document.
The requirements captured in this document are for the purpose of
designing technical specifications. The words used in this document
for compliance with RFC 2119 [3] do not reference or specify policy
and speak only to the capabilities in the derived technology. For
instance, this document may say that the protocol "MUST" support
certain features. An actual service operator is always free to
disable it (and then to return an error such as "permission denied".)
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Requirements in this document specifying the capabilities of the
protocol required for proper interaction between a client and a
server will be specified with the "MUST/SHOULD" language of RFC 2119
[3]. This document also contains language relating to the
interaction of a client with multiple servers to form a coherent,
cross-network service. Such service requirements will not be
described using RFC 2119 language.
While individual servers/service operators may not support all
features that the protocol can support, they must respect the
semantics of the protocol queries and responses. For example, a
server should not return referrals if it does not have referent data.
The Internet registries are composed of various communities which
provide scope for the requirements in this document. These
communities can be generalized into the following categories:
registries, registrars, implementers, end-users, and other actors.
Domain registries are responsible for the registration of domains for
use with DNS [1] and forward lookups (i.e., does not include the
.ARPA domain). These registries have typically served two main
domain functions: as the registry for a gTLD or as a registry for a
ccTLD. In some instances, one entity will operate multiple TLD's,
both of the gTLD and ccTLD type. A gTLD or ccTLD domain registry
operator may be a governmental entity, non-governmental,
non-commercial entity, or a commercial entity.
Some ccTLD's have second-level domain registrations similar in nature
to gTLD's or have distinctly separate entities operating second-level
domain registries similar in nature to gTLD's within the ccTLD.
Domain registries usually follow one of two models for conducting
registrations of domains. The "thick" model is the more traditional
model. In a "thick" domain registry, the registry contains both the
operational data for the domain and the contact data (Appendix A) for
the domain. In this model, the registry is typically the interface
to the domain registrant but may also interface with the domain
registrant through domain registrars. The "thin" model domain
registry contains only operational data for domains. In the "thin"
model, contact data for the domain are maintained by a domain
registrar.
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Domain registries not described in this section (Section 2.1.1) are
not the subject of this document and may have requirements that are
out of scope for this subject matter.
Domain registrars accept domain registrations from registrants on
behalf of domain registries, both "thick" and "thin". In a "thin"
model registry/registrar system, a domain registrar maintains the
contact data of a domain while the registry maintains the operational
data of a domain. In a "thick" model registry/registrar system, a
domain registrar passes both the operational data and contact data to
the registry. Domain registrars may register a domain on behalf of a
registrant in more than one domain registry.
This section describes Internet registries other than those listed in
Section 2.1. These descriptions are not definitive and this list is
not absolute. They are provided in this document for informational
purposes only.
Regional Internet Registries (RIR's) administer the allocation of IP
address space and autonomous system numbers. Each RIR serves a
specific geographic region, and collectively they service the entire
Internet. Each RIR is a membership-based, non-profit organization
that facilitates and implements global addressing policy based on the
direction of their regional community.
Local Internet Registries (LIR's) and National Internet Registries
(NIR's) are sub-registries of RIR's and coordinate the same functions
of the RIR's for smaller, more specific geographic regions, sovereign
nations, and localities.
Internet Routing Registries are routing policy databases. Their
purpose is to provide information helpful in administering Internet
routers. Frequently, the syntax and contents are defined by RPSL
[7].
IRR's are operated by academic, commercial, governmental, and other
types of organizations, including several of the RIR's. The contents
of the databases vary and reflect the needs of the users directly
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served (e.g., an ISP may look up route entries, added by their
customers, to decide whether to accept specific route advertisements
they receive).
Unlike RIR and domain registry data, IRR data is often duplicated
between separate organizations. The IRR data has the unique
characteristics of being largely available through other sources
(i.e., it is advertised by the Internet routing protocols) and most
often having a common data format, RPSL.
Incident coordination contact registries allow operators of network
resources such as network infrastructure, network names, or network
services to register contact information for the purpose of providing
a means of incident notification. Using this type of registry, an
operator of network resources are provided information for contacting
the operator of another network resource from which an incident may
be occurring.
Implementers of client software are often either affiliated with
large network operators, registry operators, or commercial entities
offering value-added services, or are general citizens of the
Internet. Much of the client software for use with the directory
services of Internet registries is either freely available, open
source, or both, or available as a service. Implementers of server
software are often affiliated with operators or commercial entities
specializing in the out-sourcing of development for Internet
registries.
This section describes the many types of end-users. Individuals and
organizations may have multiple roles and may concurrently occupy
many of the categories.
Entities given authority over an Internet resource via purchase,
lease, or grant from an Internet registry, either directly or via the
services of a registrar.
Service providers and network operators provide connectivity,
routing, and naming services to many other entities, some commercial
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and some non-commercial, both large and small. Their operational and
administrative staff often interact with Internet registries on
behalf of other end-users. Service providers and network operators
interact with all of the Internet registry operators outlined in this
document on a frequent and consistent basis. For example, network
operators use the directory services of Internet registries to
determine contact information for network resources that have
technical problems.
A number of parties, such as trademark, service mark and intellectual
property holders, individuals, governments and other geopolitical
entities, have some legal rights on certain alphanumeric strings.
They use the directory services of Internet registries, mostly domain
registries and registrars, for purposes of maintaining and defending
claims to domain names consistent with applicable laws and
regulations.
Law enforcement agencies use the directory services of Internet
registries to find information used to carry out the enforcement of
laws within their jurisdictions.
Certificate authorities use the directory services of Internet
registries as part of their verification process when issuing
certificates for Internet named hosts.
Users of the Internet have client software that resolves domain names
to IP addresses and IP addresses to domain names. Often when trouble
occurs in the resolution process of DNS, these users trouble shoot
system problems with the aid of information from the directory
services of Internet registries.
The administrative directory services of Internet registries are
often the target of practices by abusive users. Using information
obtained from Internet registries, abusive users undertake certain
activities that are counter to the acceptable use of the information
as intended by a registry, registrar, or registrant. Many times,
these practices violate law in the jurisdiction of the user,
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registry, registrar, or registrant. One example is the use of
Internet registry information for the use of sending unsolicited bulk
or commercial email.
Requirements must also consider the positions and policies of other
actors on the use of Internet registry directory services. These
actors include governments, non-governmental policy-setting bodies,
and other non-governmental organizations.
Functional requirements describe an overall need or process for which
the directory service is used by an Internet registry to fulfill its
obligations to provide access to its respective customers, members,
or other constituents. This section describes requirements in the
manner specified in Section 1.3.
This section describes basic directory service protocol requirements
for Internet registries. Additional requirements, specific to domain
registries, are described in Domain Specific Functions (Section 3.2).
In order to prevent the inappropriate acquisition of data from an
Internet registry's directory service, many servers will limit the
amount of data that may be returned in a fixed time period from a
server to a client. This will most likely be especially true for
anonymous access uses (see Section 3.1.4).
The limits placed on differing types of data or applied depending
upon access status will most likely differ from server to server
based on policy and need. Support for varying service models in the
effort to limit data and prevent data mining may or may not have a
direct impact on the client-to-server protocol.
The protocol MUST NOT employ unique technology solutions for all
aspects and layers above the network and transport layers. The
protocol SHOULD make use of existing technology standards where
applicable. The protocol MUST employ the use of network and
transport layer standards as defined by the Internet Engineering Task
Force. The protocol MUST define one or more congestion-aware
transport mechanisms for mandatory implementation.
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The protocol MUST contain standard schemas for the exchange of data
needed to implement the functionality in this document. In addition,
there MUST be a means to allow the use of schemas not defined by the
needs of this document. Both types of schemas MUST use the same
schema language. The schemas MUST be able to express data elements
with identifying tags for the purpose of localization of the meaning
of the identifying tags.
The client-to-server protocol must define a standard set of data
structures or schemas to be used when exchanging information. It
must also poses the ability to allow for the use of newer data
structures that are currently not foreseen by this specification. In
both cases, the description and specification of both types of data
structures or schemas must be done in the same way (i.e., the same
schema language).
The schemas must also be capable of "tagging" data with a unique
identifier. This identifier can then be used to localize the name of
that type of data. For instance, a piece of data may have the value
"Bob" and its type identified with the number "5.1". Client software
could use this to display "Name: Bob" in an English locale or
"Nombre: Bob" in a Spanish locale.
The protocol MUST NOT prohibit an operator from granularly assigning
multiple types of access to data according to the policies of the
operator. The protocol MUST provide an authentication mechanism and
MUST NOT prohibit an operator from granting types of access based on
authentication.
The protocol MUST provide an anonymous access mechanism that may be
turned on or off based on the policy of an operator.
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Server operators will offer varying degrees of access depending on
policy and need. The following are some examples:
o users will be allowed access only to data for which they have a
relationship
o unauthenticated or anonymous access status may not yield any
contact information
o full access may be granted to a special group of authenticated
users
The types of access allowed by a server will most likely vary from
one operator to the next.
The protocol MUST NOT require the aggregation of data to a central
repository, server, or entity. The protocol MUST NOT require
aggregation of data indexes or hints to a central repository, server,
or entity.
Some server operators may have a need to coordinate service in a mesh
or some other framework with other server operators. However, the
ability to operate a CRISP compliant server must not require this.
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The protocol MUST provide a mechanism allowing a client to determine
if a query will be denied before the query is submitted according to
the appropriate policies of the operator.
Because usage scenarios will differ depending on both policy and type
of service, some server operators may want to provide the ability for
a client to predetermine its ability to retrieve data from a query.
However, some operators will not allow this for security reasons,
policy restrictions, or other matters.
The protocol MUST NOT require any Internet registry to participate in
any authentication system. The protocol MUST NOT prohibit the
participation by an Internet registry in federated, distributed
authentication systems.
Some server operators may have a need to delegate authentication to
another party or participate in a system where authentication
information is distributed. However, the ability to operate a CRISP
compliant server must not require this.
The protocol MUST be capable of returning the following types of
non-result or error responses to all lookups and searches:
o permission denied - a response indicating that the search or
lookup has failed due to insufficient authorization.
o not found - the desired results do not exist.
o insufficient resources - the search or lookup requires resources
that cannot be allocated.
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For lookups and searches requiring distribution of queries, the
client must be allowed to distribute these queries among the
participants in an established mesh of server operators. It is not a
requirement that the protocol enable the discovery of servers, but
cooperating servers should be able to intelligently handle
distribution with its established mesh. Individual server operators
will respond to all queries received according to their policies for
authentication, privacy, and performance.
However, the ability to operate a CRISP compliant server must not
require the participation in any query distribution system.
The protocol MUST provide a means by which the end-systems can either
identify or negotiate over the protocol version to be used for any
query or set of queries.
All resource-specific schema MUST provide a version identifier
attribute which uniquely and unambiguously identifies the version of
the schema being returned in the answer set to a query.
The service should allow end-systems using different protocol
versions to fallback to a mutually supported protocol version. If
this is not possible, the service must provide a meaningful error
which indicates that this is the specific case.
The service must suggest negotiation and/or recovery mechanisms for
clients to use when an unknown schema version is received.
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When issuing a referral, the protocol MUST be capable of supplying a
relay bag from the server to the client, and the protocol MUST be
capable of allowing the client to submit this relay bag with a query
to the referred server. The use of the relay bag MUST be OPTIONAL.
The protocol MUST NOT make any assumptions regarding the contents of
the relay bag, but the relay bag MUST be described using the schema
language of the protocol.
The protocol MUST provide different error messages to indicate
whether the bag is of unrecognized format (permanent failure), if it
contains unacceptable data (permanent failure), or if it contains
data that means processing is refused at this time (transient
failure).
There MUST be no more than one bag per referral. The protocol MUST
NOT make an association or linkage between successive bags in a
referral chain.
The client MUST pass the bag as part of any query made to a referrant
server as a result of a referral.
In some models where service coordination among participating server
operators is utilized, there might be needs to allow a referring
server to pass operator-to-operator coordination data along with the
referral to the referent server. Such needs might be auditing or
tracking. This feature requirement allows a server to pass to the
client a flexible container of unspecified data ("bag") that the
client should pass to the referent server. The bag has no meaning to
the client.
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When a value in an answer to a query is given, the protocol MUST be
capable of tagging the value with the following labels:
1. do not redistribute
2. special access granted
The protocol MAY define other values for this purpose, but MUST
define values defined above at a minimum. The protocol MUST be
capable of attaching these labels concurrently.
Internet registries will have varying policies regarding the access
to their data. Some registries may grant certain classes of users
with access to data that would not normally be given to most users.
In these cases, registries may want to tag the values in these
entries with labels specifying the responsibilities accompanying
these special user rights.
These functions describe requirements specifically needed by domain
registries (Section 2.1.1) and domain registrars (Section 2.1.2).
Requirements specific to other registries (Section 2.2) MUST be
specified separately. No compliant server operator is required to
support the functions required by every registry type.
The protocol MUST contain the following lookup functions:
1. Contact lookup given a unique reference to a contact of a
resource.
2. Nameserver lookup given a fully-qualified host name or IP address
of a nameserver.
3. Domain lookup given a fully-qualified domain name.
See Section 3.2.3 for the requirements regarding the expected return
values.
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These lookups are all single index queries and should produce zero or
only one entity.
Depending on the policy and need of an Internet registry, a server
operator may not allow all or any of these lookups to return part or
all of the information. See Section 3.2.3.
The protocol MUST contain the following search functions:
1. Domain name search given an exact match or reasonable subset of a
name. This search SHOULD allow for parameters and qualifiers
designed to allow better matching of internationalized domain
names and SHOULD allow for both exact and partial matching within
the limits of internationalized domain names. This search SHOULD
NOT require special transformations of internationalized domain
names to accommodate this search. This search MUST provide a
means to narrow the search by names delegated under a particular
TLD.
2. Domain registrant search by either exact name or partial name
match with the ability to narrow the search to registrants of a
particular TLD.
3. Domains hosted by a nameserver given the fully-qualified host name
or IP address of a nameserver.
See Section 3.2.3 for the requirements regarding the expected return
values.
Depending on the policy and need of an Internet registry, a server
operator may not allow all or any of these searches to return part or
all of the information. See Section 3.1.4. Access to information
resulting from these searches may also be limited, depending on
policy, by quantity. Section 3.2.5 describes these types of
restrictions.
Some Internet registries may also be participating in a query
distribution system. See Section 3.1.11.
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The data sets for contacts, nameservers, and domains MUST be able to
express and represent the attributes and allowable values of
registration requests in domain registration and provisioning
protocols.
The schema MUST be capable of expressing the following information
for domains:
o activation status
o registrant
o nameservers
o technical, billing or other contacts
o registry delegating the domain
o registrar for the domain
The data set for domains MUST be able to express arbitrary textual
information for extensions on an individual operator basis. Examples
of such information are license agreements, authorized use policies,
extended status notifications, marketing/for sale notices, and URI
references to other sources.
It is not expected that every Internet registry supply all of the
information spelled out above, however the schemas employed by the
protocol must be capable of expressing this information should a
registry need to provide it.
The following sections describe requirements relative to the use of
schemas with respect to individual registry need and policy:
o Section 3.2.8
o Section 3.2.5
o Section 3.1.4
o Section 3.1.1
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The schemas used by the protocol SHOULD be capable of off-line
serialization
Off-line serialization allows for implementation independent
operations such as backup and recovery, load-balancing, etc. This
MAY also make possible, in whole or in part, data escrow capabilities
and other usages, however such usages are out of the scope of this
document.
The protocol MUST contain a feature, used at the discretion of a
server operator, to allow a server to express to a client a limit on
the number of results from searches and lookups. When returning
result sets, the protocol MUST be able to make the following
distinctions:
1. an empty result set.
2. a result set truncated for the purpose of improving performance
bottlenecks.
3. a result set truncated to comply with Section 3.1.1
Client software will operate more usefully if it can understand
reasons for the truncation of result sets. Of course, some Internet
registries may not be able to expose their policies for the limiting
of result sets, but, when it is possible, clients will have a better
operational view. This may eliminate re-queries and other repeated
actions that are not desirable.
The protocol MUST use the delegation authority model available in DNS
[1] as the primary means for determining the authoritative source for
information regarding domains or any other objects when applicable.
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The intent of this requirement is to have clients use the DNS
delegation model to find servers authoritative for resources instead
of using a master or central server containing pointer information.
In other words, when a resource is naturally mapped by DNS, the
desired behavior is to consult the DNS to find an authoritative
server containing information about that resource. Using
'example.com', the authoritative server for information about
example.com according to the registrant of that domain may be found
by querying the DNS zone for example.com. To find the registry
information for example.com, the DNS zone for .com should be queried.
There are cases where resources will not naturally map into the DNS
delegation hierarchy. This requirement is not meant to force such a
mapping.
The protocol MUST NOT prohibit the distribution of data to exclude
any of the registry/registrar models stated in Section 2.1.1. The
protocol MUST be capable of expressing referrals and entity
references between the various models described in Section 2.1.1.
Depending on the domain registry/registrar model in use, technical
data for a domain may only reside in one server while contact data
for the same domain may only reside in a server operated by a
separate entity. However, in many uses, this is not the situation.
Therefore, the service must accommodate for the various registration
distribution models of domain registry types described in Section
2.1.1 while complying with Section 3.1.7.
When a value in an answer to a query cannot be given due to policy
constraints, the protocol MUST be capable of expressing the value in
one of three ways:
1. complete omission of the value without explanation
2. an indication that the value cannot be given due to insufficient
authorization
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3. an indication that the value cannot be given due to privacy
constraints regardless of authorization status
The protocol MAY define other values for this purpose, but MUST
define values defined above at a minimum.
Internet registries will have varying constraints regarding their
ability to expose certain types of data, usually social information.
Server operators must have the ability to accommodate this need while
client software will be more useful when provided with proper
explanations. Therefore, depending on policy, a server operator has
a choice between not returning the data at all, signaling a
permission error, or indicating a privacy constraint.
The schema defining domain related resources MUST conform to RFC 2277
[2] regarding textual data. In particular, the schema MUST be able
to indicate the charset and language in use with unstructured textual
data.
The protocol MUST be able to support multiple representations of
contact data, with these representations complying with the
requirements in Section 3.2.3. The protocol MUST be able to provide
contact data in UTF-8 and SHOULD be able to provide contact data in
US-ASCII, other character sets, and capable of specifying the
language of the data.
Feature requirements describe the perceived need derived from the
functional requirements for specific technical criteria of the
directory service. This section describes requirements in the manner
specified in Section 1.3.
Entities accessing the service (users) MUST be provided a mechanism
for passing credentials to a server for the purpose of
authentication. The protocol MUST provide a mechanism capable of
employing many authentication types and capable of extension for
future authentication types.
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IANA consideration for any service meeting these requirements will
depend upon the technologies chosen and MUST be specified by any
document describing such a service.
This document contains requirements for the validation of
authenticated entities and the access of authenticated entities
compared with the access of non-authenticated entities. This
document does not define the mechanism for validation of
authenticated entities. Requirements defined in this document MUST
allow for the implementation of this mechanism according best common
practices.
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The requirement in Section 3.1.4 must be weighed against other
requirements specifying search or lookup capabilities.
This document contains requirements for referrals and entity
references. Client implementations based on these requirements
SHOULD take proper care in the safe-guarding of credential
information when resolving referrals or entity references according
to best common practices.
This document contains requirements for the distribution of queries
among a mesh of participating service providers. Protocols proposed
to meet these requirements must be able to protect against the use of
that distribution system as a vector of distributed denial of service
attacks or unauthorized data mining.
Normative References
[1] Mockapetris, P., "Domain names - implementation and
specification", STD 13, RFC 1035, November 1987.
[2] Alvestrand, H., "IETF Policy on Character Sets and Languages",
BCP 18, RFC 2277, January 1998.
[3] Bradner, S., "Key words for use in RFCs to Indicate Requirement
Levels", BCP 14, RFC 2119, March 1997.
Informative References
[4] Wahl, M., Howes, T. and S. Kille, "Lightweight Directory Access
Protocol (v3)", RFC 2251, December 1997.
[5] Williamson, S., Kosters, M., Blacka, D., Singh, J. and K.
Zeilstra, "Referral Whois (RWhois) Protocol V1.5", RFC 2167,
June 1997.
[6] Harrenstien, K., Stahl, M. and E. Feinler, "NICNAME/WHOIS", RFC
954, October 1985.
[7] Alaettinoglu, C., Villamizar, C., Gerich, E., Kessens, D.,
Meyer, D., Bates, T., Karrenberg, D. and M. Terpstra, "Routing
Policy Specification Language (RPSL)", RFC 2622, June 1999.
URIs
[8] <http://www.ietf.org/proceedings/00dec/00dec-41.htm>
[9] <http://www.ietf.org/proceedings/01aug/51-40.htm>
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[10] <http://www.uwho.verisignlabs.com/
Final-WhoIsPanel-Aug15-Resume.pdf>
[11] <http://www.ripe.net/ripe/meetings/archive/ripe-40/minutes/
min_database.html>
[12] <http://www.nanog.org/mtg-0110/lookup.html>
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Appendix A. Glossary
o TLD: Initials for "top level domain." Referes to domains in DNS
[1] that are hierarchically at the level just beneath the root.
o ccTLD: Initials for "country code top level domain." TLD's which
use one of the two character country codes defined by ISO.
o gTLD: Initials for "generic top level domain." TLD's that do not
use one of the two character country codes defined by ISO.
o contact data: Data containing names and contact information (i.e.,
postal addresses, phone numbers, e-mail addresses) of humans or
legal entities.
o operational data: Data necessary to the operation of networks and
network related services and items.
o RIR: Initials for "regional Internet registry."
o IRR: Initials for "Internet routing registry."
o forward lookup: a DNS lookup where a domain name is resolved to an
IP address.
o reverse lookup: a DNS lookup where an IP address is resolved to a
domain name.
o mining: In the context of this document, this term is specific to
data mining. This is a methodical process to obtain the contents
of directory service, usually as much as possible, not relevant to
any immediate need. Data mining is often not a practice welcomed
by registry operators.
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Appendix B. Acknowledgements
The proceedings of the following public forums were used as input to
the scope and requirements for this document:
o whois BOF of the 49th IETF [8]; December 10-15, 2000; San Diego,
CA, USA
o whoisfix BOF of the 51st IETF [9]; August 5-10, 2001; London,
England
o First UWho Consultation [10]; August 15, 2001; Washington, DC, USA
o Second UWho Consultation; November 15, 2001; Marina del Rey, CA,
USA
o Third UWho Consultation; November 19, 2001; Washington, DC, USA
o DNR WG of RIPE 40, October 1-5, 2001; Praque, Czech Republic
o Database WG of RIPE 40 [11]; October 1-5, 2001; Praque, Czech
Republic
o General Session of NANOG 23 [12]; October 21-23; Oakland, CA, USA
o DNR WG of RIPE 41, January 14-18, 2002; Amsterdam, The Netherlands
o Database WG of RIPE 41, January 14-18, 2002; Amsterdam, The
Netherlands
o NANOG 24 Universal Whois BOF, February 10-12, 2002; Miami, Florida
o CENTR General Assembly, February 21-22, 2002; Rambouillet, France
o CRISP BOF of the 53rd IETF, March 17-22, 2002, Minneapolis,
Minnesota, USA
This document is a work item of the Cross-Registry Internet Service
Protocol (CRISP) Working Group in the Applications Area of the IETF.
Discussions for this working group are held on the email list ietf-
not43@lists.verisignlabs.com. To subscribe to this email list, send
email to ietf-not43-request@lists.verisignlabs.com with a subject
line of "subscribe". Archives of this list may be found out
http://lists.verisignlabs.com/pipermail/ietf-not43/.
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RFC 3707 CRISP Requirements February 2004
Comments, suggestions, and feedback of significant substance have
been provided by Leslie Daigle, Mark Kosters, Ted Hardie, Shane Kerr,
Cathy Murphy, Stephane Bortzmeyer, Rick Wesson, Jaap Akkerhuis, Eric
Hall, Patrick Mevzek, Marcos Sanz, Vittorio Bertola, George
Michaelson, and Tim Christensen.
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Author's Address
Andrew L. Newton
VeriSign, Inc.
21355 Ridgetop Circle
Sterling, VA 20166
USA
Phone: +1 703 948 3382
EMail: anewton@verisignlabs.com; anewton@ecotroph.net
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RFC 3707 CRISP Requirements February 2004
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