Interoperability: Key link to deployment Gopi Garge IPv6 Forum India and IISC-ERNET, India [email protected]
Dec 28, 2015
Interoperability: Key link to deployment
Interoperability: Key link to deployment
Gopi Garge
IPv6 Forum India and
IISC-ERNET, [email protected]
DeploymentDeployment
• Needs customer demand– Does customer really know/care about IPv6?
• Must be clear benefits– Must be simple to use– Must offer significant advantages
• Vendors are developing IPv6 solutions– Host, router and mobile devices
IPv6 Deployment StrategiesIPv6 Deployment Strategies
• Plan A: Driven by new applications– 3GPP/UMTS - mobile IPv6 handsets– Home networking - plug and play devices– Metering - utility services
• Plan B: Transition of existing Internet– IPv4 and IPv6 must co-exist– access IPv4 applications from IPv6 networks
• and vice-versa
IPv6 over MPLSIPv6 over MPLSIPv4 Enterprise
IPv6 Enterprise
IPv6 Enterprise
IPv6 Enterprise
Service Provider Service Provider MPLS BackboneMPLS Backbone
TranslatingGateway
CERouter
IP Mobility and AccessIP Mobility and Access
• IPv6 enables a mobile information society– end-to-end security/transparency with QoS
• Key benefit is global reachability– scalable mobile IP methods
• Run over multiple media– WaveLAN, IR, Bluetooth, Ethernet, 3G
WAP & MobileWAP & Mobile
• WAP geared for mobile PDA devices• IPv6 enables unique global IP addressing
– thus all devices/handsets addressable with IP
• 3GPP partners building All-IP core networks– e.g. Nokia
• UMTS handsets may run IPv6– e.g. Ericsson multimedia handsets
Standards bodiesStandards bodies
• Internet Engineering Task Force– Defining Internet (including IP) standards– Led by implementations, very open
• ITU, ETSI (and 3GPP)– Defining 3G mobile– Driven more “by committee”
• Both work, but need to work together for 3G
IPv6 Standards StatusIPv6 Standards Status
• Core IETF specifications already completed• Many (inter)national deployments exist• Vendors are delivering commercial support• ISPs are rolling out commercial services• 3GPP has adopted IPv6• Real IPv6 address space is being assigned
IPv6 PlatformsIPv6 Platforms
• Solaris 8: with IPv6 since March 2000• Windows 2000: preview released Oct 2000• FreeBSD: IPv6 as standard in FreeBSD4.1• Linux: IPv6 packages available• Compaq: Tru64 Unix v5.1 includes IPv6• IBM: AIX 4.3• HP: HP/UX 11.0
Building IPv6 applicationsBuilding IPv6 applications
• New applications– Enabled by global reachability– Following peer-to-peer model– Might possibly be “standalone”
• Porting existing applications– Use new IPv6 APIs– Already quite well-defined– New API extensions under development
New IPv6 apps?New IPv6 apps?
• Need (real-time) end-to-end services– Access to databases and directory services– Tailored, seamless services, per user– Location-based user interface– Migrating agent services– Access to home network equipment– High performance visualisation experiments
• Telephony, video streaming– Available anywhere, anytime
IPv6 APIsIPv6 APIs
• Need APIs to develop applications!
• Solaris, Linux, KAME– use C– Sun’s “socket scrubber” is a handy tool
• http://www.sun.com/solaris/ipv6/
• Many Web/Internet applications use Java– awaiting IPv6-enabled Java from Sun
The Quake API testThe Quake API test
– Took 32 hours for 2 programmers from Viagenie (Canada) to retrieve the source, find where to make changes, code the changes, setup a public Quake server and play the first Quake game over IPv6.
– http://www.viagenie.qc.ca/en/ipv6/quake/ipv6-quake.shtml
IPv6 RoutersIPv6 Routers
• Cisco IOS: commercial version January 2001• Telebit: first commercial router, TBC2000• FreeBSD 3.5 or 4.1 (KAME stack)• Zebra (GNU router project)• 3Com Netbuilder II• Hitachi NR60, GR2000• Bay Networks
Core applicationsCore applications
• DNS– BIND 9 offers native IPv6 DNS lookups– Viagenie preparing IPv6 root name server
• World Wide Web– Apache server– MSIE, Netscape, Mozilla and Lynx browsers.
• E-mail– Sendmail 8.10 has IPv6 built-in, as does qmail.
IPv6 DeploymentsIPv6 Deployments
• Commercial ISPs– IIJ, NTT, BT
• International deployments– 6bone, WIDE (Japan), Internet 2 (US/Canada)
• European academic networks– JANET, DFN, Surfnet, ACONet, Renater
• European projects– 6INIT, GTPv6
6bone stats (Summer 2000)6bone stats (Summer 2000)
• Now in 46 countries AR, AU, AT, BE, BR, BG, CM, CA, CN, CZ, DK, EE, FI, FR, DE, GR, HK, HU, IN, IE, IT, JP, KZ, KR, LT, MY, MX, NL, NZ, NO, PL, PT, RO, RU, SG, SK, SI, ZA, ES, SE, CH, TW, UA, UK, US, UY
• 571 networks/sites 135 US, 66 DE, 38 JP, 28 FR, 28 UK, 20 SE, 10 CN, 9 RU, 4 MX etc.
• 68 pTLA’s (backbone tier ISPs)recent additions: UUNET and Deutsche Telekom
• 12 partner EU project (Jan’00 - Apr’01)– Pan-European deployment, 5 regional clusters– www.6init.org
• Applications: – stock exchange, news-on-demand, streaming
• IPv4/IPv6 integration issues• Also deploying:
– QoS (DiffServ), IPsec (FreeSWAN), VoIPv6 (SIP)– 6WINIT wireless follow-up project
6INIT clusters6INIT clustersUK
ScandinaviaBT, UoS,NTT, Telscom
GermanyFrance
Greece
Thomson,Renata II
Intracom
NATPT
BT IPv6 Exchange
InternetTunnels
Telia, Telebit,Netmedia,
erFP
T-Nova, IABGNTT, CRC
NATPT
NATPT
NATPT
Native IPv6 Canada
Transition from IPv4 to IPv6Transition from IPv4 to IPv6
• IPv4/IPv6 interworking– IPv6-in-IPv4 tunnels– Automated tunnel brokers, e.g. www.freenet6.net– NAT/PT and Ultima (BT)– Dual stack IPv4 and IPv6
• easier if you have enough IPv4 addresses
– Proxy methods– DSTM, 6to4, 6over4, ...
• Different scenarios require different tools
IPv6 in IPv4 tunnelsIPv6 in IPv4 tunnels
• Encapsulates IPv6 in IPv4– Thus uses IPv4 routing/properties– Loses special IPv6 features in doing so– But can run over existing Internet– Much of the 6bone is tunnelled not native IPv6– Similar concept to the Mbone tunnelling of
multicast
• Requires a hole in firewall– To allow through Protocol 41 (IP in IP)– (IPv6 firewalls are scarce right now)
Tunnel brokersTunnel brokers
• If a manually configured tunnel is not possible– Perhaps admin at site won’t configure on router– Can dynamically gain tunnel to a “tunnel server”– Server responds to Web request with commands
to run on the local host (or a script)– Has problem of authentication of broker user– If using dialup, your IPv4 address probably
changes with each session– Best example is www.freenet6.net (Viagenie)– Has scaling issues
NAT-PTNAT-PT
• Is similar in style to NAT– But translates protocol IPv4-IPv6 as well– Allows island of IPv6-only devices to communicate
to an IPv4 external network– Developed by BT (George Tsirtsis et al)– Has scaling issues, and DNS issues
• Ultima allows two IPv6-only islands to communicate over an IPv4 netwok
Dual stackDual stack
• Probably the easiest– Will require IPv6 routes to/from network– All devices run IPv4 and IPv6 stacks– Assumes enough IPv4 addresses
• Thus suitable at a University, but probably not a small business
– Needs care over security issues
• Commonplace “solution”
Proxy methodsProxy methods
• Abstracts integration to application layer• e.g. a Web cache
– Runs both IPv4 and IPv6– Can relay requests between protocols as required– Seen as acceptable given current usage
• Can also do e-mail and other services– But only a medium term answer
6to46to4
• Allows IPv6 network to exist behind a single IPv4 address– Uses special 2002::/16 prefix– Next 32 bits are the IPv4 address– Requires router knowledge of 6to4 prefixes– 6to4 router can establish IPv4 endpoint of required
tunnel from “IPv4” part of the address– e.g. an IPv6 network “hidden” behind 84.78.64.32
would be 2002:544e:4020::/48
Best method?Best method?
• No ideal solution in all cases– Single user may like tunnel broker– University may run dual stack with native IPv6
route from disjoint IPv6 exit router– Small business might prefer 6to4
• Full analysis of these and other methods is required…
Southampton IPv6Southampton IPv6
Telebit TBC2000
UCLLancaster BT
QTPv6Bermuda
IPv6 Network
3ffe:803c:80::/48 2001:0630:1fff::/48
www.6init.orgFreeBSD router
3ffe:803c:80:100::/56
3ffe:803c:80:110::/60 3ffe:803c:80:120::/60
3ffe:803c:80:111::/64 3ffe:803c:80:121::/64
3ffe:803c:200::/64
IPv6 deployment barriersIPv6 deployment barriers
• Cost is most significant factor– but not so much for new applications
• Need confidence in technology– pilots: WIDE, vBNS, NTT, 6INIT
• Need clear benefits– manageability– scalability
• IPv4 “does the job”– but will it in 5 years, and then what cost?
ConclusionsConclusions
• Commerical IPv6 products are here– Widespread deployment is not
• Business case can be made– Depending on the application domain
• Needs major network carrier to deploy– May be led by Cisco commercial support
• May be easier to deploy new IPv6 apps?– Integration would then follow by demand
If you’re new to IPv6...If you’re new to IPv6...
• Read IPv6 Forum articles• Deploy IPv6 software
– FreeBSD 3.5.1 with KAME stack (www.kame.net)– excellent for host/router/API trials
• Get connected to the 6bone– apply for pTLA or use www.freenet6.net
• Track standards bodies– ipng and ngtrans IETF working groups/e-mail lists
Sites to visitSites to visit
• IPv6 Forum - http://www.ipv6forum.com– conference presentations and reports– implementation and deployment lists
• IETF - http://www.ietf.org– standards and draft standards– ipng and ngtrans working groups
• My e-mail: [email protected]