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IPv6 transition: moving into the campus Tim Chown University of Southampton.

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Presentation on theme: "IPv6 transition: moving into the campus Tim Chown University of Southampton."— Presentation transcript:

1 IPv6 transition: moving into the campus Tim Chown tjc@ecs.soton.ac.uk University of Southampton

2 Agenda Basics of transition Where is IPv6 deploying? NREN transition Campus transition Case studies 6NET involvement

3 Transition aspects Two key aspects to deploying IPv6 in the European research networks Enabling IPv6 in the National Research and Education Networks (NRENs) Enabling IPv6 in the university (campus) networks Also interested in IPv6 access for researchers and students in commercial networks, e.g. ADSL, wifi hotspots Need tools to facilitate IPv6 availability

4 Views of transition User Should be unaware of IP version Application developer Should write IP version independent code Stack/router developer Offer protocols for both stacks NREN/campus network operator/admin Support specific transition tools

5 Various approaches Tunnels (“connecting IPv6 clouds”) Running IPv6 encapsulated over IPv4 links IPv6 packet is data payload of IPv4 packet May be automatic or manually configured tunnels Translation methods (“IPv4 IPv6 services”) Layer 3: Rewriting IP header information Layer 4: Rewriting TCP headers Layer 7: Application layer gateways (ALGs) Dual Stack Servers/devices speaking both protocols Choose the protocol available in the target system

6 Transition toolbox Plethora of methods available To the NRENs To the campuses No single method fits all NRENs Largely concerned with deploying dual-stack Also support services: 6to4 relay, tunnel broker Campuses Also largely interested in dual-stack But much higher complexity in the systems being used

7 Where is IPv6 deploying? In the academic research networks European NRENs, GÉANT, Internet 2, CA*net4, WIDE (Japan), Korea, China and links between Heralded at recent Global IPv6 Launch event In research projects 6NET, Euro6IX In pre-commercial networks and pilots Moonv6 (including US DoD sites) See the SubTLA allocation list Full commercial deployment still lacking

8 How is it deploying? Almost universally dual-stack On the NREN backbone networks first Challenge now is early enterprise adopters Dual-stack? So what do we gain? An enhanced environment where NATv4 + IPv6 is deployed (use IPv4 for mail, www, and IPv6 for new apps) An environment for future IPv6-only devices What’s the catch? Service and application interaction considerations Performance issues

9 6NET: NREN case studies Offering IPv6 transport across an NREN Most common method is dual-stack Two NRENs have deployed parallel infrastructure Two have used 6PE (MPLS) Reported in D2.2.3 (see www.6net.org) Includes theory and scenarios IETF ISP transition analysis Three NREN case studies Survey of NREN solutions Most NRENs have a service, as does GEANT Deployment issue now pushed to the edge

10 6NET: Campus case studies Undertaking transition at sites including Southampton Lancaster Muenster (JOIN project) Collaborating with Euro6IX project partners UPM UMU Current status in 6NET document D2.3.3-bis1 See www.6net.org for text

11 Campus scenarios Aggregating experience at the sites Some overlaps for common technology, some differences The more sites to draw experience from, the better Producing detailed studies Scenarios and analyses Contribute to 6NET D2.3.4 (“site transition cookbook”) Plain language campus transition white paper IETF drafts for IPv6 Operations WG Knowledge base for transition “SWOT” team

12 Transition methodology Analyse current IPv4 systems scenario Identify gaps Work around gaps if possible Evaluate the limitations where barriers are firm Obtain IPv6 address space Obtain external IPv6 connectivity Deploy IPv6 “on the wire” internally Perhaps using protocol VLANs, perhaps ISATAP Enable IPv6 in services and management tools Ensure policy and security issues are covered

13 Transition components Network Address allocation Management and monitoring Services Host and device platforms User tools

14 Network components Internal physical links Ethernet Wireless LAN Routing and logical subnets Typically /24 - /26 sized subnets Firewall Stateful usually required Remote access Dialup, VPN Uplink connectivity to campus/MAN

15 Address allocation Network prefix allocation Hierarchical, provider assigned Address allocation Address plan Address management Manual Stateful DHCPv6 Stateless address autoconfiguration RFC3041 privacy addresses (Need to consider site policy here)

16 Management and monitroing Device configuration and monitoring SNMP Statistical monitoring MRTG, Cisco Netflow RIPE NCC Test Traffic server Service monitoring Nagios Intrusion detection (IDS) Snort Authentication systems For WLAN: 802.1x

17 Service/server components (1) Email Sendmail, MS Exchange, WU-IMAP Web hosting Apache 1, Apache 2, IIS 4, IIS 5 Databases MySQL, MS SQL Directory services NIS, LDAP, Active Directory, RADIUS DNS BIND

18 Service/server components (2) NTP Dedicated hardware, RIPE NCC Test Traffic server Usenet News server dnews Multicast PIM-SM (not using SSM for IPv4) Remote login sshd File serving NFS, samba

19 Host and device platforms Server platforms Windows 2000, 2003, NT Solaris 8, 9 Linux SGI Desktop systems Windows 98, 2000, ME, XP Linux, MacOS/X PDAs Windows CE/.NET, PalmOS, Linux, Zaurus

20 User tools (1) Dedicated hardware Printers Webcams Mail clients Outlook, Eudora, Mutt, Pine Web browsers MSIE, Mozilla, Safari, Opera Conferencing tools AccessGrid H.323 (NetMeeting, GnomeMeeting, OpenMCU)

21 User tools (2) Other collaboration tools IRC, Jabber, MSN Messenger, cvs Login clients ssh NTP clients ntp.org tools USENET News client nn, Mozilla Host communications X11, vnc, PC Anywhere

22 Gap analysis (1) Layer 3 functions on Layer2/3 switching equipment IPv6 injected into VLANs via parallel IPv6 routers NFS/samba IPv6 support MS Exchange, Outlook, Eudora AccessGrid IPv4 only Some Apache 2 modules lack 1.3 functionality IPv6 support in MS Active Directory Use of OpenLDAP? IPv6 dnews support IPv6 for WLAN access control (web redirect, 802.1x)

23 Gap analysis (2) IPv6 support for Windows 98, ME, 2000 Must upgrade to Windows XP DHCPv6 implementations Required for DNS resolver discovery, at least IPv6 support for Irix IPv6 support for various PDA platforms Reverse DNS wildcards? Sendmail wants to reverse lookup IP addresses MLDv2 snooping in Ethernet switches IPv6 for X11 (xfree has copyright issues)

24 Planned outputs Specific detailed cookbook Within 6NET, by December 2004 (D2.3.4) Generalised campus transition white paper Jointly with Euro6IX, around October 2004 Paper aimed at senior management in universities The detailed 6NET cookbook is aimed at administrators IETF contributions Campus scenario, initial analysis, by August IETF Knowledge base for “SWOT” team During January - June 2005, as 6NET extension

25 Southampton status IPv6 available internally Using parallel IPv6 routers (BSD) Injecting IPv6 into IPv4 VLANs (congruent subnets) Dual-stack services DNS servers done (BIND9), web and email now New IPv6 services Mobile IPv6 deployment (linking community network) Want to share experiences! Please contact us Also looking for sites to join the 6NET case study Email: tjc@ecs.soton.ac.uk

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