+Ra�ces

Project goals

The main goal of the +Raices project is the installation of anycast root server copies in various countries of the LACNIC region. By installing these servers at strategic locations throughout the region such as IXPs (Internet Exchange Points) and NAPs (Network Access Points), the project seeks to achieve greater resiliency for one of the Internet's most critical resources, the DNS. It provides redundancy and reduces vulnerability, allowing a better response in case of potential DDoS attacks or infrastructure failures that could render certain root servers inoperative.

LACNIC's Role

LACNIC's role is to coordinate with host organizations and those providing the root servers, as well as to promote these new root servers. In certain cases, LACNIC may sponsor the installation of a root server copy.

About the Project

This initiative is part of LACNIC's ongoing role as a promoter of regional Internet development. The +Raices project helps strengthen global Internet infrastructure and stability. In other words, it broadens the scope and improves the strength and response times of the DNS system (an essential part of Internet infrastructure) at both regional and global level. For this reason, LACNIC has signed the following agreements:

Agreement with ISC Internet Systems Consortium, signed on 1st April 2004 in Montevideo for the installation of anycast copies of the F root server (operated by ISC)
Agreement with ICANN - Internet Corporation for Assigned Names and Numbers, signed on 14 March 2012 in Costa Rica for the installation of anycast copies of the L root server (operated by ICANN)
Agreement with Netnod for the deployment of I root servers in the LAC region
Agreement with RIPE NCC (23 July 2015) for promoting the deployment of K root server copies

Structure

The Domain Name System (DNS) is based on a hierarchical tree-like structure in which millions of servers worldwide have part of the information needed to make the system work.
At the root of this system there is not one but thirteen servers performing this function, each of which is identified with the letters A to M. These thirteen servers share the same hierarchy, and none is subordinated to another. Ten are in the United States, two in Europe and one in Japan.

Anycast

Anycast has long been used to announce the same prefix from several different locations. The routing system can then identify which location is closest to each user. A few years ago, this technique began to be used to create root server "clones," thus overcoming the technical limitations that do not allow implementing new logical root servers.
Users only see the root server closest to them, not the original server or other copies. This increases the system's efficiency while providing greater security and stability. If for some reason an anycast copy of a root server fails, users will automatically start seeing other copies or other root servers.

How to participate in +RAICES

If you would like to host an anycast root server copy, please contact LACNIC at raices@lacnic.net. In order to better process your request, we recommend providing a brief description of your organization and how it connects to the Internet.

Installed copies

Copy	City, Country	Organization	Role of LACNIC	Operational Since
L	Caracas, Venezuela	REACCIUN	Coordination	February 2012
L	Montevideo, Uruguay	SECIU	Coordination	March 2012
L	Quito, Ecuador	AEPROVI/NAP Ecuador	Funding and coordination	March 2012
L	San Salvador, El Salvador	IX/SVNet	Coordination	August 2006
L	Quito, Ecuador	AEPROVI	Coordination	August 2012
L	Bogotá, Colombia	CCIT/NAP Colombia	Funding and coordination	October 2012
L	Asunción, Paraguay	COPACO	Coordination	June 2013
L	Caracas, Venezuela	REACCIUN/CENIT	Coordination	February 2015
L	Santiago, Chile	Telefónica	Coordination	May 2015
L	Santiago, Chile	Telefónica	Coordination	May 2015
L	Cochabamba, Bolivia	COMTECO	Funding and coordination	September 2016
L	Quito, Ecuador	AEPROVI/NAP Ecuador	Funding and coordination	February 2020

F	Santiago, Chile	NIC.CL	Coordination and funding	December 2005
F	Buenos Aires, Argentina	CABASE	Coordination and funding	August 2006
F	Caracas, Venezuela	CNTI	Coordination and funding	October 2006
F	Panama City, Panama	NIC.PA/ UTP	Coordination and funding	July 2007
F	Quito, Ecuador	AEPROVI	Coordination and funding	August 2007
F	Sint Marteen	OC-IX	Coordination and funding	July 2009
F	Port-au-Prince, Haiti	AHTIC	Coordination and funding	May 2010
F	Montevideo, Uruguay	ANTEL	Coordination	August 2015

K	Montevideo, Uruguay	LACNIC	Funding and coordination	January 2016
K	Buenos Aires, Argentina	ARIU	Funding and coordination	May 2017
K	Panama, Panama	CWP - Cable & Wireless Panama	Funding and coordination	May 2018
I	Montevideo, Uruguay	LACNIC	Funding and coordination	June 2016
I	Asunción, Paraguay	IXP.Py / NIC.Py	Funding and coordination	February 2018
I	Mexico	Transtelco	Coordination	July 2018
I	Guayaquil, Ecuador	CEDIA	Coordination	September 2019
I	Santo Domingo, Ecuador	IXP Ecuador	Funding and coordination	January 2020
I	Concepcion, Chile	PIT Chile	Funding and coordination	April 2020
I	Cochabamca, Bolivia	Comteco	Funding and coordination	September 2020
I	Monterrey, Mexico	Transtelco	Coordination	October 2020
I	Buenos Aires, Argentina	ARIU	Coordination	November 2020
I	Suriname	Telesur	Funding and coordination	December 2020
I	Guatemala	IXP-GT	Funding and coordination	March 2021
I	Lima, Peru	PIT Peru	Funding and coordination	April 2021
I	Panamá, Panamá	InteRed	Coordination	September 2022

Requirements

Dell PowerEdge servers with iDRAC interface v7 or above for remote administration. The server requires three network interfaces:

iDRAC interface
Gigabit Ethernet interface for system management
Gigabit Ethernet interface for production (anycast traffic)

IPv4 and IPv6 connectivity are both required. The host organization must provide:

A global IPv4 address (routable) for iDRAC; IPv6 is not required
For interface management, either an IPv6 address with NAT64/DNS64, or an IPv4 and an IPv6 address are required
The production interface also requires an IPv4 address (and eventually an IPv6 address), which may be private, to connect with the host institution's BGP neighbor

This BGP session will be used to announce the anycast prefixes, which for the K root server as follows:

193.0.14.0/24
2001:7FD::/48
ASN 25152

Supermicro PR-6018R-WRF servers with IPMI 2.0 interface are suggested for remote management:http://www.supermicro.com/products/system/1U/6018/SYS-6018R-WTR.cfm

The server requires three network interfaces:

IPMI interface
Gigabit Ethernet interface for system management
Gigabit Ethernet interface for production

IP addressing:

One public IPv4 address for the IPMI interface
One public IPv4 address for the management interface
One public /28 IPv4 prefix and preferably a /64 IPv6 prefix routed through the management interface
One IPv4 address (which may be private) for the operational interface to connect with the neighbor NBGP

Anycast prefixes announced together with the as-path are as follows:

192.36.148.0/24 ^8674_29216$
194.146.106.0/24 ^8674$
194.146.107.0/24 ^8674$
194.146.108.0/24 ^8674$
2001:67c:1010::/48 ^8674_29216$
2001:67c:1011::/48 ^8674_29216$
2001:7fe::/33 ^8674_29216$

For the deployment of a L instance under the L-Single program, the purchase of L-Root appliance is required.

For additional information please visit http://www.dns.icann.org/lroot/ and http://www.dns.icann.org/lroot/faq/

Announced anycast prefixes:

199.7.82.0/23
199.7.83.0/24
2001:500:3::/48
2001:500:9e::/47
2001:500:9f::/48
AS20144

There are no specifications regarding the type of servers to be used. ISC operates an open peering policy with the locations where they deploy F root server copies: https://www.isc.org/f-root/network-peering/. More information: https://www.isc.org/f-root/