Netnod

Last updated
Netnod
Netnod AB
Formation1996;28 years ago (1996)
Type Limited company fully owned by Nonprofit
556534-0014
Location
Services Root name server, Internet exchange points
Interim CEO
Karin Ahl [1]
Parent organization
TU-stiftelsen (Stiftelsen för Telematikens utveckling)
Website netnod.se
ASN
  • 8674

Netnod AB (previously Netnod Internet Exchange i Sverige AB) is a private limited company based in Stockholm, Sweden, that operates Internet exchange points and manages one of the thirteen root name servers for the Domain Name System (DNS). It also distributes the official Swedish time through the Network Time Protocol (NTP). It is fully owned by the nonprofit foundation TU-stiftelsen / TU-foundation (Stiftelsen för Telematikens utveckling, eng The Foundation for the development of telematics ). [2]

Contents

History

The predecessor to the TU Foundation / Netnod was the D-GIX, an Internet exchange point that was established at the Royal Institute of Technology (KTH) in Stockholm and operated by KTHNOC. D-GIX had been one of the first IXes established in Europe, and quite successful at that. In 1996 a report by a committee, (Swedish : Internetutredningen) had listed infrastructure that was critical for the operation of the Internet in Sweden. Among the critical infrastructure listed was a robust and reliable Internet exchange. A number of factors led KTH as well as the Swedish ISPs to conclude that a separate legal entity would be a better operational format. After legal consultations, and seeing that the Swedish government seemed keen to play a role in the infrastructure operation, the Swedish ISPs decided to found the TU Foundation. The initial capital came from a government set up foundation, the Knowledge Foundation, KK-stiftelsen, one of the largest Swedish research foundations. The idea behind the ownership model with the foundation was that it would guarantee independence from the operators as well as from the government. Linkage to the operational community comes from the fact that the Swedish university network SUNET appoints one of the board members, and the Swedish Network Users Society (SNUS) one of the Netnod board members. These two directly appointed board members jointly appoints the third board member.

The TU-Foundation established the operational company Netnod to run the IX. In the beginning Netnod had no staff of its own and all operations were outsourced to the Swedish military. In 2001, Netnod created fully owned a subsidiary called Autonomica. Autonomica was to run the operations for Netnod (whom then as well as now, do not have any staff of its own) as well as run the i.root-servers.net on behalf of NORDUnet and conduct Internet-related research. In the beginning the staff mainly focused on DNS and management and the operations continued to be outsourced to the military. However, finally in 2002 Autonomica's staff grew considerably and the contract with the military was ended. Operations is today done entirely by Netnod staff. [3]

Internet exchange points

The Netnod IX has among the highest amount of traffic per peer in Europe and is fully enabled for IPv6 traffic. Netnod operates six Internet exchange points (IXPs) in five different cities where Internet operators can connect and exchange traffic—in other words, peer with one another. They are located in Stockholm, Gothenburg, Luleå, Malmö, as well as Copenhagen in Denmark. It also distributes the official Swedish time through the two time protocols Network Time Protocol (NTP) and Network Time Security (NTS, roughly NTP with security). [3]

At the Netnod IXPs, Netnod provides a variety of value-adding services such as the RIPE Internet Routing Registry (IRR), Bredbandskollen (a consumer broadband speed test), slave services for several DNS TLDs, the DNS root server i.root-servers.net. These services are provided as part of Netnod's AS number AS8674. Netnod also manages a variety of DNS services. Netnod provides anycast and unicast slave service to TLDs worldwide through its DNSNODE product. Some of the services above were previously offered through Autonomica, a fully owned subsidiary of Netnod; in 2010, however Autonomica merged with Netnod.

From the beginning, as was cited in the Internetutredningen report, the IX operated by Netnod was considered as critical national infrastructure. Netnod therefore in 1997 agreed with the Swedish telecommunications regulator to locate the IX equipment in government operated secure telecommunications bunkers. In addition, it was agreed that operations should not be dependent on Stockholm alone. Netnod therefore established IXes in Stockholm, Gothenburg, Malmö, and Sundsvall. All of these locations were in the government bunkers, as opposed to co-location facilities as the case in most other countries. The exchanges are independent and not linked, so operators connected in one city will only see other operators connected in the same city. However, most of the larger Swedish providers are connected at all four cities. Netnod since 2004 also operates an IX in Luleå.

Autonomica

Autonomica AB was a fully owned subsidiary of Netnod that operated several critical infrastructure pieces on the Internet. Autonomica is currently (in 2022), in a legal sense, a brand of Netnod AB since the merger of the two previously separate organisations.

Autonomica was founded in 1998, as a Netnod subsidiary. The Swedish Operator Forum had been discussing extending the operations of Netnod to include common infrastructure services, as well as taking on staff. It was decided that Netnod would form a separate entity for the operation of the Internet Exchange Point and that that would also be chartered to do research in Internet Technology with a main focus on DNS. Autonomica was set up with three staff, one responsible for co-ordination of the operation of the IXes and two that were moved from the Royal Institute of Technology in Stockholm. It was also agreed between the Swedish University Network SUNET, and Autonomica that Autonomica would take over the responsibility for running the . In addition to that, Autonomica was also to operate the .SE slave servers at each of the four original Netnod Exchanges. Financial surplus was to be handed to the foundation to be used as grants for "good for the Internet" projects.

Autonomica was originally to focus on "research". The work came to focus on what can best be described as engineering and applied research, as often is the case with Internet-related technology, such as the work in the IETF. Autonomica staff has since the start been very active in the IETF and among other things co-chaired the IETF DNSOP working group, multi6 working group (now closed), shim6 working group and the v6ops working group. Autonomica staff has also served on the IAB. The work done by Autonomica has mainly focused on DNSSEC and Autonomica staff has written many Internet Drafts and RFCs on DNSSEC issues and deployability. Recently a lot of work and presentations has been done on the topic of deploying IPv6 in production environment.[ citation needed ]

Autonomica staff are also frequently involved in presenting and chairing sessions in operational conferences such as RIPE, APRICOT /APNIC, SANOG, MENOG and NANOG. Autonomica has also helped run several workshops and initiatives among the Swedish Operators.

Autonomica provides several for free services for the good of the Internet, such as i.root-servers.net, one of the 13 Root-servers, and NTP servers tied to UTC. Autonomica also finances its operation by sharing the platform used for Anycast of the i.root-servers.net with several TLDs that make use of the platform.

Technology

The first D-GIX was a 10 Mbit/s switch. By the time D-GIX was replaced by Netnod, the exchange point consisted of two FDDI switches in Stockholm and one was also installed in Gothenburg. Around 1998, the FDDI circuits were filled and traffic was heavily impacted by head-of-line blocking. At a Swedish Operator Forum meeting the alternatives were discussed. The options were basically two. The new Gigabit Ethernet standard, and a standard developed by Cisco called Spatial Reuse Protocol (SRP). The decision to go with SRP was basically based on the fact that at the time Gigabit Ethernet and SRP had roughly the same cost. SRP also did not have the issue of head-of-line blocking, and SRP had a larger MTU size than what Gigabit Ethernet had at the time. So the Swedish operators decided that Netnod should implement SRP. The SRP rings installed were running at 2x622 Mbit/s in each city.

It wasn't soon until the 2x622 Mbit/s was not enough. Netnod then proposed to the operators to migrate to SRP 2x2.5 Gbit/s, which was also installed. The larger operators all moved to the new SRP rings, but the smaller operators wanted a cheaper method. By 2000, Gigabit Ethernet was starting to become mass-market and the price had dropped compared to SRP. Gigabit Ethernet had by then also implemented jumbo frames. Netnod said they were willing to implement Gigabit Ethernet, but wanted eight operators to promise to sign up to cover the costs. In the meantime, some operators went off and created an alternative, Ethernet-based IX, SOL-IX. However, Netnod managed to get their eight customers quite fast and built out Gigabit Ethernet at all cities. For 2 years, the old FDDI exchange (that was still operational) was connected to the Ethernet switches, but by the end of 2002, all SRP and FDDI equipment had been migrated away from.

Today the Netnod platform consists of single-chassis Gigabit Ethernet switches at each location.

As of 2012 Netnod also offers remote peering through a reseller program, Netnod Reach.

See also

Related Research Articles

<span class="mw-page-title-main">Domain name</span> Identification string in the Internet

In the Internet, a domain name is a string that identifies a realm of administrative autonomy, authority or control. Domain names are often used to identify services provided through the Internet, such as websites, email services and more. 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.

<span class="mw-page-title-main">Metropolitan area network</span> Computer network serving a populated area

A metropolitan area network (MAN) is a computer network that interconnects users with computer resources in a geographic region of the size of a metropolitan area. The term MAN is applied to the interconnection of local area networks (LANs) in a city into a single larger network which may then also offer efficient connection to a wide area network. The term is also used to describe the interconnection of several LANs in a metropolitan area through the use of point-to-point connections between them.

<span class="mw-page-title-main">London Internet Exchange</span> Internet exchange point in London

The London Internet Exchange ("LINX") is a mutually governed Internet exchange point (IXP) that provides peering services and public policy representation to network operators. It was founded in 1994 in London. LINX operates IXPs in London, Manchester, Scotland and Wales in the United Kingdom and Northern Virginia in the United States.

<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.

<span class="mw-page-title-main">Verisign</span> American Internet company

Verisign Inc. is an American company based in Reston, Virginia, 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 country-code top-level domains, and the back-end systems for the .jobs and .edu sponsored top-level domains.

The Domain Name System Security Extensions (DNSSEC) are 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.

Internet exchange points are common grounds of IP networking, allowing participant Internet service providers (ISPs) to exchange data destined for their respective networks. IXPs are generally located at places with preexisting connections to multiple distinct networks, i.e., datacenters, and operate physical infrastructure (switches) to connect their participants. Organizationally, most IXPs are each independent not-for-profit associations of their constituent participating networks. The primary alternative to IXPs is private peering, where ISPs directly connect their networks to each other.

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.

<span class="mw-page-title-main">DNS zone</span> Part of the Internets Domain Name System (DNS) organization system

A DNS zone is a specific portion of the DNS namespace in the Domain Name System (DNS), which a specific organization or administrator manages. A DNS zone is an administrative space allowing more granular control of the DNS components, such as authoritative nameserver. The DNS is broken up into different zones, 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.

The MAE was the first Internet Exchange Point (IXP). It began in 1992 with four locations in Washington, D.C., quickly extended to Vienna, Reston, and Ashburn, Virginia; and then subsequently to New York and Miami. Its name stood for "Metropolitan Area Ethernet," and was subsequently backronymed to "Metropolitan Area Exchange, East" upon the establishment of MAE-West in 1994. The MAE predated the National Information Infrastructure plan, which called for the establishment of IXPs throughout the United States. Although it initially had no single central nexus, one eventually formed in the underground parking garage of an office building in Vienna, VA.

<span class="mw-page-title-main">Toronto Internet Exchange</span> Not-for-profit Internet Exchange Point

The Toronto Internet Exchange Community (TorIX) is a not-for-profit Internet Exchange Point (IXP) located in a carrier hotel at 151 Front Street West, Equinix's TR2 data centre at 45 Parliament Street and 905 King Street West in Toronto, Ontario, Canada. As of March 2021, TorIX has 259 unique autonomous systems representing 285 peer connections and peak traffic rates of 1.344 Tbps, making it the largest IXP in Canada. According to Wikipedia's List of Internet Exchange Points by Size, TorIX is the 16th largest IXP in the world in numbers of peers, and 17th in the world in traffic averages. The Exchange is organized and run by industry professionals in voluntary capacity.

<span class="mw-page-title-main">Packet Clearing House</span> Organization maintaining the Domain Name System and Internet exchange points

Packet Clearing House (PCH) is the international nonprofit organization responsible for providing operational support and security to critical Internet infrastructure, including Internet exchange points and the core of the Domain Name System. The organization also works in the areas of cybersecurity coordination, regulatory policy and Internet governance.

<span class="mw-page-title-main">Moscow Internet Exchange</span> Internet exchange point in Russia

MSK-IX is an Internet eXchange Point (IXP) with headquarters in Moscow, Russia. With over 549 connected networks and 3,37Tbps of peak traffic, MSK-IX is one of the world's largest IXPs. According to the Internet Exchange Report by Hurricane Electric Internet Services, MSK-IX is the second in Russia and is one of the seven largest in the world by the numbers of members.

The following outline is provided as an overview of and topical guide to the Internet.

The Technical Center of Internet is a Moscow-based organization founded in 2009 providing technical support of Russian national domains .ru, .рф, and .su.

<span class="mw-page-title-main">Dmitry Burkov</span>

Dmitry Burkov is one of the Internet industry pioneers in Russia, Chairman of the Board of the Foundation for Assistance for Internet Technologies and Infrastructure Development, one of the originators of the Eurasia Network Operators’ Group (ENOG).

The Manitoba Internet Exchange Inc (MBIX) is an Internet exchange point situated in Winnipeg, Manitoba, Canada. It allows traffic between members to stay within the Canadian jurisdiction, optimizing the performance and economy of traffic flows, while limiting the potential for extra-legal surveillance. MBIX is incorporated as a Manitoban tax-exempt non-profit corporation.

Grenoble Internet eXchange or GrenoblIX is the Internet eXchange point (IXP) of Grenoble in Isère and Auvergne – Rhône-Alpes region. GrenoblIX allows to the connected members to exchange traffic in order to avoid routing through faraway infrastructures. This Internet eXchange point is managed by the non-profit organization Rezopole, founded in 2001.

Peter Löthberg is a Swedish technology entrepreneur. He played a role in the growth of the Internet in Sweden and was the de facto architect of EBONE, a pan-European Internet backbone, during its lifetime. He was the designer of Cisco's GSR12000 backbone router technology and the TeraStream architecture, along with Guenter Honisch. He was involved with Sprint's Internet infrastructure strategy. Löthberg is the owner of telecommunications company Swedish Telecom Development and Product Innovation (STUPI).

References

  1. "The Netnod Team: Karin Ahl". Netnod. Retrieved 21 August 2023.
  2. "About Netnod: working at core of the Internet". Netnod. Retrieved 12 April 2021.
  3. 1 2 "Netnod's history". Netnod. Retrieved 12 April 2021.