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IPv6 support in the DNS Speaker name (or email address)

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1 IPv6 support in the DNS Speaker name (or email address)

2 Copy... Rights This slide set is the ownership of the 6DISS project via its partners The Powerpoint version of this material may be reused and modified only with written authorization Using part of this material must mention 6DISS courtesy PDF files are available from www.6diss.org Looking for a contact ? Mail to : martin.potts@martel-consulting.ch Or bernard.tuy@renater.fr

3 Contributions Main authors –Miguel Baptista, FCCN, Portugal –Carlos Friaças, FCCN, Portugal –Laurent Toutain, ENST-Bretagne – IRISA, France –Bernard Tuy, Renater, France Contributors –Octavio Medina, ENST-Bretagne, France –Mohsen Souissi, AFNIC, France –Vincent Levigneron, AFNIC, France –Thomas Noel, LSIIT, France –Alain Durand, Sun Microsystems, USA –Alain Baudot, France Telecom R&D, France –Bill Manning, ISI, USA –David Kessens, Qwest, USA –Pierre-Emmanuel Goiffon, Renater, France –Jérôme Durand, Renater, France –Mónica Domingues, FCCN, Portugal

4 Prerequisites You must have followed previously the modules: –010-IPv6 Introduction –020-IPv6 Protocol –030-IPv6 Addressing –040-IPv6 Associated Protocols

5 Agenda How important is the DNS? DNS Resource Lookup DNS Extensions for IPv6 Lookups in an IPv6-aware DNS Tree About Required IPv6 Glue in DNS Zones The Two Approaches to the DNS DNS IPv6-capable software IPv6 DNS and root servers DNSv6 Operational Requirements & Recommendations

6 How important is the DNS? Getting the IP address of the remote endpoint is necessary for every communication between TCP/IP applications Humans are unable to memorize millions of IP addresses (specially IPv6 addresses) To a larger extent: the Domain Name System (DNS) provides applications with several types of resources (domain name servers, mail exchangers, reverse lookups, …) they need DNS design –hierarchy –distribution –redundancy

7 fr name server asso.fr name server g6.asso.fr name server name server resolver Replyfrdecomassoinriaabgafnicg6 Refer to fr NS + glue Refer to asso.fr NS [+ glue] Refer to g6.asso.fr NS [+ glue] Query ‘foo.g6.asso.fr’ RR? RR for foo.g6.asso.fr Query ‘foo.g6.asso.fr’ RR? Query ‘foo.g6.asso.fr’ RR? Query ‘foo.g6.asso.fr’ RR? Query ‘foo.g6.asso.fr’ RR? “.” name server root DNS Lookup

8 DNS Extensions for IPv6 RFC 1886 RFC 3596 (upon successful interoperability tests) AAAA : forward lookup (‘Name IPv6  Address’): Equivalent to ‘A’ record Example: ns3.nic.fr.INA192.134.0.49 INAAAA2001:660:3006:1::1:1 PTR : reverse lookup (‘IPv6 Address  Name’): Reverse tree equivalent to in-addr.arpa New tree: ip6.arpa (under deployment) Former tree: ip6.int (deprecated) Example: $ORIGIN 1.0.0.0.6.0.0.3.0.6.6.0.1.0.0.2.ip6.arpa. 1.0.0.0.1.0.0.0.0.0.0.0.0.0.0.0 PTR ns3.nic.fr.

9 frnetarparipewhoisip60.6 6.0.0.3 comapnic nic ns3www ns3.nic.fr  1.0.0.0.1.0.0.0.0.0.0.0.0.0.0.0.1.0.0.0.6.0.0.3.0.6.6.0.1.0.0.2.ip6.arpa e.f.f.3 Name  IP Address IP Address  Name root ns3.nic.fr int 2001:660:3006:1 ::1:1 in-addr1921340 49 0 255... 192.134.0.49 193  49.0.134.192.in-addr.arpa. 192.134.0.49 ituip6...4 1.0.0.0.1.0.0.0.0.0.0.0.0.0.0.0.1.0.0.0 2001:660:3006:1::1:1 6.0.1.0.0.2 Lookups in an IPv6-aware DNS Tree

10 About Required IPv6 Glue in DNS Zones When the DNS zone is delegated to a DNS server (among others) contained in the zone itself Example: In zone file rennes.enst-bretagne.fr @INSOA rsm.rennes.enst-bretagne.fr. fradin.rennes.enst-bretagne.fr. (2005040201 ;serial 86400;refresh 3600;retry 3600000;expire} IN NSrsm INNSunivers.enst-bretagne.fr. […] ipv6INNSrhadamanthe.ipv6 INNSns3.nic.fr. INNSrsm ; rhadamanthe.ipv6INA192.108.119.134 INAAAA2001:660:7301:1::1 […] IPv4 glue (A 192.108.119.134 ) is required to reach rhadamanthe over IPv4 transport IPv6 glue (AAAA 2001:660:7301:1::1) is required to reach rhadamanthe over IPv6 transport

11 IPv6 DNS and root servers DNS root servers are critical resources! 13 roots « around » the world (#10 in the US) Not all the 13 servers already have IPv6 enabled and globally reachable via IPv6. Need for (mirror) root servers to be installed in other locations (EU, Asia, Africa, …) New technique : anycast DNS server –To build a clone from the master/primary server –Containing the same information (files) –Using the same IP address Such anycast servers have already begun to be installed : –F root server: Ottawa, Paris(Renater), Hongkong, Lisbon (FCCN)… –Look at http://www.root-servers.org for the complete and updated list.

12 The Two Approaches to the DNS The DNS seen as a Database –Stores different types of Resource Records (RR): SOA, NS, A, AAAA, MX, SRV, PTR, …  DNS data is independent of the IP version (v4/v6) the DNS server is running on! The DNS seen as a TCP/IP application –The service is accessible in either transport modes (UDP/TCP) and over either IP versions (v4/v6)  Information given over both IP versions MUST BE CONSISTENT!

13 DNS IPv6-capable software BIND (Resolver & Server) –http://www.isc.org/products/BIND/ –BIND 9 (avoid older versions) On Unix distributions –Resolver Library (+ (adapted) BIND) NSD (authoritative server only) –http://www.nlnetlabs.nl/nsd/ Microsoft Windows (Resolver & Server)...

14 DNSv6 Operational Requirements & Recommendations The target today IS NOT the transition from an IPv4-only to an IPv6-only environment How to get there? –Start by testing DNSv6 on a small network and get your own conclusion that DNSv6 is harmless, but remember: The server (host) must support IPv6 And DNS server software must support IPv6 –Deploy DNSv6 in an incremental fashion on existing networks –DO NOT BREAK something that works fine (production IPv4 DNS)!

15 Questions?

16 EXTRA SLIDES

17 TLDs and IPv6 One of IANA’s functions is the DNS top-level delegations Changes in TLDs (e.g ccTLDs) has to be approved and activated by IANA Introduction of IPv6-capable nameservers at ccTLDs level has to be made through IANA

18 TLDs and IPv6 #2 How many servers supporting a domain should carry AAAA records? –Usually conservative approaches –One or two servers Don’t use long server names. 1024 bytes limit in DNS responses –Some ccTLDs had to renamed their servers (same philosophy used by root servers)

19 TLDs and IPv6 #3 17/04/2005 –4 TLDs (.AEROS,.NET,.COM,.INT) –42 ccTLDs European: About half already glued Servers: 35 different ones, worldwide

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