Open Root Server Network

Last updated October 18, 2022

Open Root Server Network logo

Open Root Server Network (ORSN) was a network of Domain Name System root nameservers for the Internet. ORSN DNS root zone information was kept in synchronization with the "official" Domain Name System root nameservers coordinated by ICANN. The networks were 100% compatible, though ORSN was operated independently. The ORSN servers were primarily placed in Europe. ORSN is also used by public name servers, providing Domain Name System access freely for everyone, without any limitation until the project closed in May 2019. ORSN was primarily started to reduce the over-dependence of Internet users on the United States and Department of Commerce/IANA/ICANN/VeriSign, limit the control over the Internet that this gives, while ensuring that domain names remain unambiguous. It also helps avoid the technical possibility of global "Internet shutdown" by one party.^[1] They also expect their network to make domain name resolutions faster for everyone.

Paul Vixie, the main designer of BIND, the de facto standard software for DNS servers in UNIX-like operating systems, is a high-profile proponent of the ORSN.^[2] Paul Vixie is member of Security and Stability Advisory Committee of ICANN;^[3] he served on the Board of Trustees of the American Registry for Internet Numbers (ARIN) from 2005 to 2013, also as ARIN chairman in 2009 and 2010.^[4]

ORSN has two operating modes:

ICANN BASED (default) operating mode involves daily synchronization, except that removed TLDs are not removed from the ORSN root.
INDEPENDENT mode has no automatic synchronization and is activated "whenever the political situation of the world - in our opinion - makes this step necessary because the possibility of a modification and/or a downtime of the ICANN root zone exists or we do not want that our root zone will rebuild automatically."^[5]

Operating history

ORSN operated from February 2002 until the end of 2008.^[6]
ORSN operated again from June 2013 until May 2019.^[7]

Several Internet service providers in Europe used ORSN as a root for their name servers.^{[ citation needed ]}

ORSN root nameservers

ORSN's root server system consisted of 13 root servers, a distributed system connected on a secure VPN, for synchronization and management. All of the 13 servers ran on FreeBSD and BIND. Monitoring and management daemon was developed by founder, Markus Grundmann.

Letter	IP country	IPv4 address	IPv6 address	Operator / sponsor
A	Austria	185.29.88.82	2a00:a6a0:1:1::6:2	XINON GmbH, St. Anna am Aigen, Austria
B	Poland	91.206.27.66	2001:67c:2044:c139::53	HosTeam S.C., Poznań, Poland
C	Germany	178.19.70.8	2a01:440:1:f:178:19:70:8	whTec, Oberhausen, Germany
D	Netherlands	85.17.122.15	2001:1af8:40e0:a007:bbb::	Mr. Ömer Canıtez
E	Denmark			Zen Systems A/S, Copenhagen, Denmark
F	Germany	212.224.71.116	2a01:7e0:0:100:212:224:71:116	First Colo GmbH, Munich, Germany
G	Greece	193.93.165.1		Association for the Development of West Athens (ASDA), Athens, Greece
H	France	188.165.175.112	2001:41d0:2:5a70::c0de	Mr. Péter Vámos, Budapest, Hungary
I	India	180.149.57.12		National Knowledge Network, New Delhi, India
J	Germany	188.138.82.98		3Q Medien GmbH, Potsdam, Germany
K	Germany	82.206.1.22	2001:4b88:9000::	Titan Networks GmbH, Hofheim, Germany
L	Netherlands	79.99.236.6		JustNet GmbH, Baden, Switzerland
M	Germany	82.193.249.196		Markus Grundmann, Founder of ORSN, Germany

table data from ORSN Root Zone^[8] Version: 2015022600
ORSN Root Server Systems Technical Information

ORSN public DNS servers

ORSN public DNS servers were operated by the community of ORSN, providing Domain Name System access freely for everyone, without any limitation. It did not serve additional TLDs but only the regular ICANN TLDs. ORSN public DNS servers were intended to respect privacy and should not have logged usage, although these servers were run independently and there was no technical means by which ORSN could enforce this. Anyone was able to choose to run an OSRN public DNS server and submit it via web form. These DNS servers were an alternative option for users that did not have a local ORSN-ready server or in the case that the local ISP did not support the use of ORSN. All registered servers were monitored constantly, for availability and functionality.^[9]

FQDN	IP country	IPv4 address	IPv6 address	Operator / sponsor
ns0.freeinfosociety.org	France	188.165.175.115	2001:41d0:2:5a70::1	Mr. Péter Vámos, Budapest, Hungary
ns1.freeinfosociety.org	France	37.187.23.23	2001:41d0:a:1717::1	Mr. Péter Vámos, Budapest, Hungary
ns2.freeinfosociety.org	France	37.187.99.178	2001:41d0:a:23b2::1	Mr. Péter Vámos, Budapest, Hungary
ns01.ch.orsn.it-schwerin.de	Switzerland	178.209.50.232	2a02:418:6a04:178:209:50:232:cafe	Mr. Daniel Pajonzeck
orsn-ns01.zirkumflex.net	Germany	84.200.83.54	2001:1608:10:102::acab	Mr. Daniel Thielemann
orsn-ns.godau.eu	Germany	109.230.224.42	2a02:d40:3:1:ac11:71ff:feee:41b3	Mr. Jens Godau
orsn-ns2.godau.eu	Germany	87.118.126.225	2001:1b60:3:267:3436:21:0:1	Mr. Jens Godau
orsn.dnscache.cyborg-connect.de	Germany	37.187.193.30		Cyborg-Connect.de
orsn-ns01.first-colo.de	Germany	212.224.71.71	2a01:7e0::212:224:71:71	First Colo GmbH
orsn-ns02.first-colo.nl	Netherlands	79.133.62.62		First Colo GmbH
a.tx.nic.servertx.cf	United States	195.20.51.139		Telecom Texas

ORSN Public DNS data last updated on 11 March 2019.
source: Official ORSN Public DNS live data and monitoring.

Related Research Articles

The Domain Name System (DNS) is the hierarchical and decentralized naming system used to identify computers reachable through the Internet or other Internet Protocol (IP) networks. The resource records contained in the DNS associate domain names with other forms of information. These are most commonly used to map human-friendly domain names to the numerical IP addresses computers need to locate services and devices using the underlying network protocols, but have been extended over time to perform many other functions as well. The Domain Name System has been an essential component of the functionality of the Internet since 1985.

Paul Vixie is an American computer scientist whose technical contributions include Domain Name System (DNS) protocol design and procedure, mechanisms to achieve operational robustness of DNS implementations, and significant contributions to open source software principles and methodology. He also created and launched the first successful commercial anti-spam service. He authored the standard UNIX system programs SENDS, proxynet, rtty and Vixie cron. At one point he ran his own consulting business, Vixie Enterprises.

A top-level domain (TLD) is one of the domains at the highest level in the hierarchical Domain Name System of the Internet after the root domain. The top-level domain names are installed in the root zone of the name space. For all domains in lower levels, it is the last part of the domain name, that is, the last non empty label of a fully qualified domain name. For example, in the domain name www.example.com, the top-level domain is com. Responsibility for management of most top-level domains is delegated to specific organizations by the ICANN, an Internet multi-stakeholder community, which operates the Internet Assigned Numbers Authority (IANA), and is in charge of maintaining the DNS root zone.

A name server refers to the server component of the Domain Name System (DNS), one of the two principal namespaces of the Internet. The most important function of DNS servers is the translation (resolution) of human-memorable domain names (example.com) and hostnames into the corresponding numeric Internet Protocol (IP) addresses (192.0.2.1), the second principal name space of the Internet, which is used to identify and locate computer systems and resources on the Internet.

A domain name is a string that identifies a realm of administrative autonomy, authority or control within the Internet. Domain names are used in various networking contexts and for application-specific naming and addressing purposes. In general, a domain name identifies a network domain or an Internet Protocol (IP) resource, such as a personal computer used to access the Internet, or a server computer. Domain names are often used to identify services provided through the Internet, such as websites and email services. As of 2017, 330.6 million domain names had been registered.

The Internet Assigned Numbers Authority (IANA) is a standards organization that oversees global IP address allocation, autonomous system number allocation, root zone management in the Domain Name System (DNS), media types, and other Internet Protocol-related symbols and Internet numbers.

A domain name registry is a database of all domain names and the associated registrant information in the top level domains of the Domain Name System (DNS) of the Internet that enables third party entities to request administrative control of a domain name. Most registries operate on the top-level and second-level of the DNS.

<span class="mw-page-title-main">Root name server</span> Name server for the DNS root zone

A root name server is a name server for the root zone of the Domain Name System (DNS) of the Internet. It directly answers requests for records in the root zone and answers other requests by returning a list of the authoritative name servers for the appropriate top-level domain (TLD). The root name servers are a critical part of the Internet infrastructure because they are the first step in resolving human-readable host names into IP addresses that are used in communication between Internet hosts.

The DNS root zone is the top-level DNS zone in the hierarchical namespace of the Domain Name System (DNS) of the Internet.

Verisign Inc. is an American company based in Reston, Virginia, United States that operates a diverse array of network infrastructure, including two of the Internet's thirteen root nameservers, the authoritative registry for the .com, .net, and .name generic top-level domains and the .cc and .tv country-code top-level domains, and the back-end systems for the .jobs, .gov, and .edu sponsored top-level domains.

The Domain Name System Security Extensions (DNSSEC) is a suite of extension specifications by the Internet Engineering Task Force (IETF) for securing data exchanged in the Domain Name System (DNS) in Internet Protocol (IP) networks. The protocol provides cryptographic authentication of data, authenticated denial of existence, and data integrity, but not availability or confidentiality.

The Internet uses the Domain Name System (DNS) to associate numeric computer IP addresses with human-readable names. The top level of the domain name hierarchy, the DNS root, contains the top-level domains that appear as the suffixes of all Internet domain names. The most widely used DNS root is administered by the Internet Corporation for Assigned Names and Numbers (ICANN). In addition, several organizations operate alternative DNS roots, often referred to as alt roots. These alternative domain name systems operate their own root name servers and commonly administer their own specific name spaces consisting of custom top-level domains.

AlterNIC was an unofficial, controversial Internet domain name registry that relied on an alternative DNS root. The primary purpose of the project was to challenge the monopoly of InterNIC, the official governing body for generic top-level domains (gTLDs) until the creation of the ICANN in 1998. AlterNIC offered second level domain registration in its own TLDs at lower prices than InterNIC. However, these domain names could only be resolved by name servers that were specifically configured to use the AlterNIC root zone. The project is now defunct; the domain name alternic.net is parked and no longer associated with AlterNIC.

.an was the Internet country code top-level domain (ccTLD) for the former Netherlands Antilles. It was administered by the University of the Netherlands Antilles. The domain was phased out after the Netherlands Antilles were dissolved in 2010. As of November 2010 the .an domain remained live with over 800 domains registered under .an, including secondary levels. On 31 July 2015, use of the domain was discontinued.

Internet Systems Consortium, Inc., also known as ISC, is a Delaware-registered, 501(c)(3) non-profit corporation that supports the infrastructure of the universal, self-organizing Internet by developing and maintaining core production-quality software, protocols, and operations. ISC has developed several key Internet technologies that enable the global Internet, including: BIND, ISC DHCP and Kea. Other software projects no longer in active development include OpenReg and ISC AFTR.

A DNS zone is a specific portion of the DNS namespace in the Domain Name System (DNS), which is managed by a specific organization or administrator. A DNS zone is an administrative space that allows for more granular control of the DNS components, such as authoritative nameserver. The DNS is broken up into many different zones, which are distinctly managed areas in the DNS namespace. DNS zones are not necessarily physically separated from one another, however, a DNS zone can contain multiple subdomains and multiple zones can exist on the same server.

DNS spoofing, also referred to as DNS cache poisoning, is a form of computer security hacking in which corrupt Domain Name System data is introduced into the DNS resolver's cache, causing the name server to return an incorrect result record, e.g. an IP address. This results in traffic being diverted to the attacker's computer.

Distributed denial-of-service attacks on root nameservers are Internet events in which distributed denial-of-service attacks target one or more of the thirteen Domain Name System root nameserver clusters. The root nameservers are critical infrastructure components of the Internet, mapping domain names to IP addresses and other resource record (RR) data.

This article presents a comparison of the features, platform support, and packaging of many independent implementations of Domain Name System (DNS) name server software.

OpenNIC is a user-owned and -controlled top-level Network Information Center that offers a non-national alternative to traditional top-level domain (TLD) registries such as ICANN. As of January 2017, OpenNIC recognizes and peers all existing ICANN TLDs, for compatibility reasons. However, OpenNIC has not yet evaluated and does not hold a formal position on future ICANN TLDs.

References

↑ "Under The Stairs: ORSN – European Open Root Server Network". September 19, 2006.
↑ "Why I Am Participating in the ORSN Project". www.circleid.com.
↑ "Security and Stability Advisory Committee (SSAC) - ICANN". www.icann.org.
↑ "Former Trustees". www.arin.net.
↑ ORSN FAQ
↑ Vixie, Paul (2008-10-23). "Open Root Server Network project shutdown by 31.12.2008 00:00 UTC". dns-operations (Mailing list). Retrieved 2008-10-23.
↑ ORSN. "[...] the ORSN was again activated in June 2013" . Retrieved 11 October 2013.
↑ ORSN Root Hint (BIND)
↑ Overview of the ORSN Public DNS Servers

External links

This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.

[1] "Under The Stairs: ORSN – European Open Root Server Network". September 19, 2006.

[2] "Why I Am Participating in the ORSN Project". www.circleid.com.

[3] "Security and Stability Advisory Committee (SSAC) - ICANN". www.icann.org.

[4] "Former Trustees". www.arin.net.

[5] ORSN FAQ

[6] Vixie, Paul (2008-10-23). "Open Root Server Network project shutdown by 31.12.2008 00:00 UTC". dns-operations (Mailing list). Retrieved 2008-10-23.

[ORSN-7] ORSN. "[...] the ORSN was again activated in June 2013" . Retrieved 11 October 2013.

[8] ORSN Root Hint (BIND)

[9] Overview of the ORSN Public DNS Servers

[1]

[2]

[3]

[4]

[5]

[6]

[7]

[8]

[9]