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IPv6 Lab. APAN26 Queenstown, New Zealand. Olympic 2008 Website (New Zealand delegation dances it up in Olympic Village, Aug.2, 2008). http://en.beijing2008.cn/venues/olympicvillage/headlines/n214498078.shtml. Agenda. IPv6 worldwide deployment status and trend Basic information
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IPv6 Lab APAN26 Queenstown, New Zealand
Olympic 2008 Website(New Zealand delegation dances it up in Olympic Village, Aug.2, 2008) http://en.beijing2008.cn/venues/olympicvillage/headlines/n214498078.shtml
Agenda • IPv6 worldwide deployment status and trend • Basic information • identify IPv6 address type • configure IPv6 address on your laptop computer • connectivity checking and basic trouble shooting skill • tunnel configuration and connectivity checking • IPv6 application introduction • access IPv6 resources • More advanced configuration • Introduction to Dragon Lab training facility • IPv6 routing basics and router configuration experiment • basic FTP and Web server configuration
Why IPv6? • Problems with IPv4 • “Address is running out!” • Routing table explosion • Security issue • QoS • … • Temporary solutions • NAT • CIDR • Legacy IP address resource recovery
IPv6 ALLOCATIONS RIRs to LIRs/ISPs(Jan 1999 – March 2008) How many total allocations have been made by each RIR? In terms of /32s, how much total space has each RIR allocated? Dec 2007 Internet Number Resource Report
Conception of IPv6 • Internet Protocol version 6 (RFC) • Over 200 related RFCs • A new type of IP address • A new type of IP packet • A new IP protocol stack of OS
Changed Removed 0 bits 4 8 16 24 31 Ver IHL Service Type Total Length Identifier Flags Fragment Offset Time to Live Protocol Header Checksum 32 bit Source Address 32 bit Destination Address Options and Padding IPv4 Header Modifications 20 octets + options : 13 fields, including 3 flag bits
0 4 12 16 24 Traffic Class Version Flow Label Payload Length Next Header Hop Limit 128-bit Source Address 128-bit Destination Address IPv6 Header40 Bytes, 8 Fields 31 • 128-bit address space • 340,282,366,920,938,463,463,374,607,431,768,211,456 addresses (3.4 x 1038)
Differences Between v4 & v6 Feature IPv4 IPv6 Address length 32 bits 128 bits IPSec support Optional Required QoS support Some Better Fragmentation Hosts and routers Hosts only Packet size 576 bytes 1280 bytes Checksum in header Yes No Options in header Yes No Link-layer address resolution ARP (broadcast) Multicast Neighbor Discovery Messages Multicast membership IGMP Multicast Listener Discovery (MLD) Router Discovery Optional Required Uses broadcasts Yes No Configuration Manual, DHCP Automatic, DHCP DNS name queries Uses A records Uses AAAA records DNS reverse queries Uses IN-ADDR.ARPA Uses IP6.INT
Types of IPv6 Addresses • Unicast • Address of a single interface • One-to-one delivery to single interface • Multicast • Address of a set of interfaces • One-to-many delivery to all interfaces in the set • Anycast • Address of a set of interfaces • One-to-one-of-many delivery to a single interface in the set that is closest • A single interface may be assigned multiple IPv6 addresses of any type (unicast, anycast, multicast) • No Broadcast Address -> Use Multicast • No more IPv4 type of broadcast addresses
IPv6 Addressing Examples • Global unicast address is: 2001:DF8:101:1::E0:F796:4F31, subnet is 2001:DF8:101:1::0/64 • Link-local address is FE80::80:9341:A892 • Unspecified Address is 0:0:0:0:0:0:0:0 or :: • Loopback Address is 0:0:0:0:0:0:0:1 or ::1 • Group Addresses (Multicast) • FF02::9 for RIPv6
IPv6 Auto-Configuration • Stateless (RFC2462) • Host autonomously configures its own address • Link local addressing • i.e.: FE80::80:9341:A892 • Stateful • DHCPv6 • Addressing lifetime • Facilitates graceful renumbering • Addresses defined as valid, deprecated or invalid SUBNET PREFIX + MAC ADDRESS SUBNET PREFIX + MAC ADDRESS SUBNET PREFIX SUBNET PREFIX + MAC ADDRESS SUBNET PREFIX + MAC ADDRESS (Single Subnet Scope, Formed from Reserved Prefix and Link Layer Address)
Serverless Auto-configuration(“Plug-n-Play”) • IPv6 Hosts can construct their own addresses: • subnet prefix(es) learned from periodic multicast advertisements from neighboring router(s) • interface IDs generated locally, e.g., using MAC addresses • Other IP-layer parameters also learned from router advertisements • (e.g., router addresses, recommended hop limit, etc.) • Higher-layer info (e.g., DNS server and NTP server addresses) discovered by multicast / anycast-based service-location protocol • [details still to be decided]
Auto-Reconfiguration (“Renumbering”) • New address prefixes can be introduced,and old ones withdrawn • we assume some overlap period between old and new,i.e., no “flash cut-over” • hosts learn prefix lifetimes and preferability from router advertisements • old TCP connections can survive until end of overlap;new TCP connections can survive beyond overlap • Router renumbering protocol, to allow domain-interior routers to learn of prefix introduction / withdrawal • New DNS structure to facilitate prefix changes
IPv6 Terminology Neighbors Host Host Host Bridge Intra-subnet router router LAN segment Link Subnet Other networks Network
Enable IPv6 on a PC • Windows 2000 • Download tcpipv6-001205-SP4-IE6.zip • Windows XP • ipv6 install • netsh interface ipv6 install • Redhat Linux • /etc/sysconfig/network : NETWORKING_IPV6=yes
Command line test tools(1) • ping6 C:\>ping6 ipv6.sjtu.edu.cn Pinging ipv6.sjtu.edu.cn [2001:da8:8000:1::80] from 2002:cb60:4756::cb60:4756 with 32 bytes of data: Reply from 2001:da8:8000:1::80: bytes=32 time=445ms Reply from 2001:da8:8000:1::80: bytes=32 time=442ms Reply from 2001:da8:8000:1::80: bytes=32 time=449ms Reply from 2001:da8:8000:1::80: bytes=32 time=438ms Ping statistics for 2001:da8:8000:1::80: Packets: Sent = 4, Received = 4, Lost = 0 (0% loss), Approximate round trip times in milli-seconds: Minimum = 438ms, Maximum = 449ms, Average = 443ms C:\>
Command line test tools(2) • tracert6 • tracert –d IPv6Address [Remark: no DNS resolve] C:\>tracert6 ipv6.sjtu.edu.cn Tracing route to ipv6.sjtu.edu.cn [2001:da8:8000:1::80] from 2002:cb60:4756::cb60:4756 over a maximum of 30 hops: 1 363 ms * 361 ms 2002:ca70:1af6:1:203:32ff:fe13:7820 2 432 ms 436 ms 434 ms cernet2.net [2001:da8:8000:100::1] 3 430 ms 432 ms 436 ms cernet2.net [2001:da8:8000:1::80] Trace complete. C:\>
Command line test tools(3) • netsh interface ipv6 show neighbors C:\>netsh interface ipv6 show neighbors 接口 3: 6to4 Tunneling Pseudo-Interface Internet 地址 物理地址 类型 --------------------------------------------- ----------------- ----------- 2002:ca70:1af6::ca70:1af6 202.112.26.246 永久 2002:836b:9820::836b:9820 131.107.152.32 永久 2002:836b:4179::836b:4179 131.107.65.121 永久 2002:c058:6301::c058:6301 192.88.99.1 永久 2002:cb60:4756::cb60:4756 127.0.0.1 永久 2001:dc0:2001:0:4608:20:: 不完整 … C:\>
Command line test tools(4) • netsh interface ip show dns • netsh interface ipv6 show address • netsh interface ipv6 show destinationcache • netsh interface ipv6 show routes • netsh interface ipv6 show routes • netstat -ps IPv6 • netstat –ps TCPv6 • netstat –ps UDPv6 • netstat –ps ICMPv6
Command line test tools(5) • pathping -6 ntp.bupt.edu.cn • nslookup • set type=AAAA • www.kame.net
Connectivitytesting via web browsing • Visit http://www.apnic.net, you must see the IPv6 address you are using on the webpage • http://www.beijing2008.cn is a webserver, providing information on Olympic2008 in Beijing! • http://www.kame.net -- The “kame” or turtle at the top of the main page “dances” if you are connected via IPv6 • http://ipv6.research.microsoft.com -- Accessible only via IPv6
There are lot of, now! • http://www.ipv6forum.org/modules.php?op=modload&name=Web_Links&file=index
IPv6-enabled Devices & Services • Advanced Incident Response System • Camera • Conferencing • Entertainment • Environment Control • Internet Car • Kitchen Appliances • Personal Digital Assistant • Sensor networking • War Games http://www.ipv6forum.org/modules.php?op=modload&name=News&file=article&sid=51
Web-Based IPv6 Services Services listed in http://www.ipv6day.org/action.php?n=En.Services • Web based services • Surveillance services • Broadcast services • Miscellaneous • Monitoring services • Network services
There is no single ‘best’ solution • Could be used in different situations • Manual tunnels, v4 over v6, v6 over v4 • Tunnel broker (TB) • Dual-stack networking • ALGs • 6to4 router (for small, typically SOHO, sites) • NAT-PT (for IPv6-only subnets without ALG capability)
Some IPv6 tunnel services • Tunnel Brokers list, by ipv6day.org • http://www.ipv6day.org/action.php?n=En.GetConnected-TB • AARNet Tunnel Broker • http://broker.aarnet.net.au • UKERNA IPv6 Tunnel Broker • www.broker.ipv6.ac.uk • SixXS project team • http://ipv6gate.sixxs.net/ • Hurricane Electric Free IPv6 Tunnel Broker • http://ipv6tb.he.net/ • SJTU ISATAP and 6to4 tunnel • http://ipv6.sjtu.edu.cn/news/041231.php • ISATAP Tunnel • netsh int ipv6 isatap set router 203.91.120.1
Config isatap tunnel C:\>netsh netsh>int netsh interface>ipv6 netsh interface>ipv6>install netsh interface ipv6>isatap netsh interface ipv6 isatap>set router isatap.sjtu.edu.cn enable C:>ping6 ntp.buptnet.edu.cn Pinging ntp.buptnet.edu.cn [2001:da8:202:10::2] from 2001:da8:8000:d010:0:5efe:203.96.71.86 with 32 bytes of data: Reply from 2001:da8:202:10::2: bytes=32 time=403ms Reply from 2001:da8:202:10::2: bytes=32 time=407ms Reply from 2001:da8:202:10::2: bytes=32 time=404ms Reply from 2001:da8:202:10::2: bytes=32 time=406ms Ping statistics for 2001:da8:202:10::2: Packets: Sent = 4, Received = 4, Lost = 0 (0% loss), Approximate round trip times in milli-seconds: Minimum = 403ms, Maximum = 407ms, Average = 405ms C:\>
Config 6to4 tunnel C:\>netsh netsh>int netsh interface>ipv6 netsh interface>ipv6>install netsh interface ipv6>6to4 netsh interface ipv6 6to4>set relay 202.112.26.246 enable C:>ping6 C:\>ping6 ipv6.sjtu.edu.cn Pinging ipv6.sjtu.edu.cn [2001:da8:8000:1::80] from 2002:cb60:4756::cb60:4756 with 32 bytes of data: Time out。 Reply from 2001:da8:8000:1::80: bytes=32 time=470ms Reply from 2001:da8:8000:1::80: bytes=32 time=486ms Reply from 2001:da8:8000:1::80: bytes=32 time=477ms Ping statistics for 2001:da8:8000:1::80: Packets: Sent = 4, Received = 3, Lost = 1 (25% loss), Approximate round trip times in milli-seconds: Minimum = 470ms, Maximum = 486ms, Average = 477ms C:\>nslookup
IPv6 DNS server • Bind is available at http://www.isc.org/prodcts/BIND/ • The configuration files of bind are: • /etc/named.conf • /var/named/zonefiles • The following configuration statements must be added in named.conf: • options { • listen-on {any; }; • listen-onv6 {any; }; • };
A sample /etc/named.conf file // // named.conf for Red Hat caching-nameserver // options { directory "/var/named"; dump-file "/var/named/data/cache_dump.db"; statistics-file "/var/named/data/named_stats.txt"; listen-on-v6 { any; }; query-source address * port 53; }; zone "iitk.ipv6.ernet.in" { type master; file "hosts.ipv6.your-organization.cn"; allow-query {any;}; allow-transfer {any;}; }; zone “8.a.d.0.1.0.0.2.ip6.arpa" { type master; file "reverse-2001-0da8_32.IP6.ARPA"; };
A sample zone file $TTL 86400 $ORIGIN iitk.ipv6.ernet.in. @IN SOA ns.ipv6.your-organization.cn. web@ipv6.edu.cn. ( 2006032701 ; serial 3H ; refresh 15M ; retry 1W ; expiry 1D ) ; minimum IN NS ns. your-organization.cn. ; IN NS ns. your-organization.cn IN MX 10 mail.ipv6.your-organization.cn. ;*.ipv6.ernet.in. IN MX 0 mail.ipv6.your-organization.cn. $ORIGIN ipv6. your-organization.cn. proxy IN A 202.204.16.93 mail IN A 202.204.16.95 mail IN AAAA 2001:da8:2100:205:41:8e:3:9876 ns IN CNAME mail
Test the DNS server using: • nslookup -type=AAAA hostname • ping6 IPv6address • ping6 hostname • traceroute6 IPv6address • hosts –t or dig
IPv6/v4 Dual Stack web server • The server configuration almost same with the classical set up of an IPv4 server. The main configuration file is in the directory /etc/httpd/conf/httpd.conf • The admin also has to specify the addresses and ports on which the serverlistens, for example: Listen 202.204.16.93 :80 Listen [2001:da8:2100:205:41:8e:3:9876]:80 Listen 80 • Many other parameters can be added to configure the dual stack web server. The server can then be configured without taking into account the IP protocol version.
IPv6/v4 Dual Stack web server • To test the web server installed, we can use any IPv6 enabled web client. • There are many browsers already available with an IPv6 support. • For windows, IE fully supports IPv6. • Mozilla, Opera can be used for example on computers with UNIX. • To be sure that IPv6 is used for communication with a dual stack web server, it is possible to add the IPv6 address in URL using the textual format with the brackets in Mozilla/Firefox. Eg. http://[2001:da8:2100:205:41:8e:3:9876]
Mail server • Most used SMTP servers support IPv6. Sendmail (http://www.sendmail.org) that supports IPv6 since release 8.10, Exim (http://www.exim.org ) from release 4.10, Qmail, Postfix (http://www.postfix.org ) and others can support IPv6. • Over the years, Sendmail has matured to the point that every feature available with IPv4 can now also be used with IPv6, for example, transfer to and from an IPv6-enabled host or server, filtering, and redirection.
IPv6 Mail • Edit your sendmail.cf located in /etc/mail directory • Uncomment The following lines with the appropriate IPv6 interface address just below the section SMTP daemon options • Run “make –C /etc/mail” command to compile sendmail.mc file. • Restart or “- HUP” sendmail and watch for errors • Test your smtp server telnet to port 25 when you logged in your server DAEMON_OPTIONS(`Name=MTA-v4, Family=inet, Name=MTA-v6, Family=inet6')dnl # telnet ::1 25
IPv6 POP3 & IMAP • IPv6 IMAP an POP have been supported by many MTA’s eg. UW IMAP, Courier IMAP, Cyrus IMAP, Dovecot, Popper etc. • For our testings we have used Dovecot IMAP Server. • Simply edit /etc/dovecot.conf file and add these two lines imap_listen = [::] pop3_listen = [::]
IPv6 POP3 & IMAP • Simply restart the dovecot demon and test your IPv6 IMAP or POP3 server by using and IPv6 compliant MUA. • There are still few IPv6 enabled SMTP, POP3 and IMAP clients. Sylpheed is a client with a graphical interface under Unix & windows that supports all these features since release 0.4.4. More info about this software can be found at http://sylpheed.sraoss.jp/en/
IPv6 NTP • Some IPv6 NTP servers already exist. NTP is very important as time is required for most management functions (network server logs, one way delay calculation, ...). • There is an list of IPv6 NTP servers available at: http://eng.hexago.com/services/ntp.shtml • An IPv6 release of ntpdate can be found at the following url: • http://www.viagenie.qc.ca/en/ipv6/ntpv6 • BUPT also provide NTP at http://ntp.buptnet.edu.cn • Server and client software downloading
See detail in 080801_wjl_IPv6_Lab.doc
Thanks • Part of the material from • Mr.John Barlow from AARNET • Microsoft • Cisco • Tsinghua Univ. • Shanghai Jiaotong Univ. • Beijing University of Posts and Telecoms • …
Reference • www.ipv6.org • www.ipv6forum.com • www.ipv6tf.org • www.ipv6day.org • Some of the company webpage • Microsoft IPv6 site • http://www.microsoft.com/ipv6 • Cisco IPv6 page • http://www.cisco.com/ipv6 • Junipor IPv6 page • …