%include "default.mgp" %default 1 bgrad %deffont "typewriter" tfont "MONOTYPE.TTF" %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page %nodefault %back "blue" %center %size 8 IPv6 Introduction %center %size 4 by Harald Welte %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction What? Why? What is IPv6? Successor of currently used IP Version 4 Specified 1995 in RFC 2460 Why? Address space in IPv4 too small Routing tables too large %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Advantages Advantages stateless autoconfiguration multicast obligatory IPsec obligatory Mobile IP Address renumbering Multihoming Multiple address scopes smaller routing tables through aggregatable allocation simplified l3 header 64bit aligned no checksum (l4 or l2) no fragmentation at router %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Disadvantages Disadvantages Not widely deployed yet In most cases access only possible using manual tunnel OS support not ideal in most cases W2k: IPv6 available from MS Windows XP: IPv6 included Linux has support, but not 100% RFC compliant *BSD: full support (KAME) Solaris 8/9/10: full support Application support not ideal in most cases Biggest problem: squid supported: bind8/9, apache, openssh, xinetd, rsync, exim, zmailer, sendmail, qmail, inn-2.4(CVS), zebra, mozilla Conclusion: Circular dependencies no application support without OS support no good OS support without applications no wide deployment without applications no applications without deployment no deployment without applications %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Deployment Experimental (6bone) Experimental 6bone (3ffe::) has been active since 1995. Uses slightly different Addressing Architecture (RFC2471) Phased out on 06/06/2006 No new pTLA assignments starting from 2005 Production (2001::) Initial TLA's and sub-TLA's assigned in Sept 2000 Mostly used in education+research Some commercial ISP's in .de are offering production prefixes Why isn't IPv6 widely used yet? No immediate need in Europe / North America Big deployment cost at ISP's (Training, Routers, ..) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Technical: Address Space IP Version 6 Addressing Architecture (RFC2373) Format prefix, variable length 001: RFC2374 addresses, 1/8 of address space 0000 001: Reserved for NSAP (1/128) 0000 010: Reserved for IPX (1/128) 1111 1110 10: link-local unicast addresses (1/1024) 1111 1110 11: site-local unicast addresses (1/1024) 1111 1111 flgs scop: multicast addresses flgs (0: well-known, 1:transient) scop (0: reserved, 1: node-local, 2: link-local, 5: site-local, 8: organization-local, e: global scope, f: reserved) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Technical: Address Space Aggregatable Global Unicast Address Format (RFC2374) 3bit FP (format prefix = 001) 13bit TLA ID - Top-Level Aggregation ID 13bit Sub-TLA - Sub-TLA Aggergation ID 19bit NLA - Next-Level Aggregation ID 16bit SLA - Site-Level Aggregation ID 64bit Interface ID - derived from 48bit ethernet MAC Initial subTLA-Assignments 2001:0000::/29 - 2001:01f8::/29 IANA 2001:0200::/29 - 2001:03f8::/29 APNIC 2001:0400::/29 - 2001:05f8::/29 ARIN 2001:0600::/29 - 2001:07f8::/29 RIPE loopback ::1 unspecified: ::0 embedded ipv4 IPv4-compatible address: 0::xxxx:xxxx IPv6-mapped IPv4 (IPv4 only node): 0::ffff:xxxx:xxxx anycast allocated from unicast addresses only subnet-router anycast address predefined (prefix::0000) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Technical: Header %font "typewriter" %size 3 +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ |Version| Traffic Class | Flow Label | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | Payload Length | Next Header | Hop Limit | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + Source Address + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + Destination Address + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ %font "standard" 4bit Version: 6 8bit Traffic Class 20bit Flow Label 16bit Payload Length (incl. extension hdrs) 8bit next header (same values like IPv4, RFC1700 et seq.) 8bit hop limit (TTL) 128bit source address 128bit dest address extension headers: hop-by-hop options routing fragment destination options IPsec (AH/ESP) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Technical: Layer 2 <-> Address mapping Ethernet: No more ARP, everything within ICMPv6 No Broadcast, everything built using multicast. all-nodes multicast address ff02::1 all-routers multicast address ff02::2 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Technical: Address Configuration router discovery routers periodically send router advertisements hosts can send router solicitation to explicitly request RADV prefix discovery router includes prefix(es) in ICMPv6 router advertisements other nodes receive prefix advertisements and derive their final address from prefix + EUI64 of MAC address neighbour discovery machines can discover it's neighbours without advertising router %page IPv6 Introduction How to get connected In case of static IPv4 address SIT (ipv6-in-ipv4) tunnel possible http://www.join.uni-muenster.de/ In case of dynamic IPv4 address ppp (ipv6 over ppp) tunnel (pptp, l2tp) possible sitctrl (linux <-> linux) atncp (*NIX), http://www.dhis.org/atncp/ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Stateless Autoconfiguration Address space is split in two 64bit halves Upper 64bit '2001:780:44:1100:' used to specify a network segment (/64) Lower 64bit '204:61ff:fe5c:74b9' used to specify node within segment Lower 64bit are generated from 48bit mac address with 'fffe' in the middle Potential Problem: Privacy IETF Solution: RFC3041 "Privacy Extension" uses additional 'alias' IPv6 adresses that are created randomly and only valid for hours/days %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction DNS and IPv6 Forward resolval (hostname->address) IPv4 uses "IN A" record IPv6 uses "IN AAAA" record A particular hostname can have both A and AAAA Reverse resolval (address->hostname) Uses ".ip6.arpa." suffix Uses hexadecimal instead of decimal notation 4.4.0.0.0.0.0.0.0.8.7.0.1.0.0.2.ip6.arpa. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction BSD Sockets API and IPv6 new structures in_addr has become in6_addr sockaddr_in has become sockaddr_in6 new API's like getaddrinfo are compatible with ipv6 and ipv4 portable applications use sockaddrr_storage and don't make assumptions about it's size %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Configuration under Linux Router/Gateway Runs radvd or zebra for for sending router advertisements Client Just has to load "ipv6" module and configure interface up Receives prefix-advertisements(s) and autoconfigures address %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction IPv6 option headers New concept of option header Any number of option headers between l3 and l4 header With one exception only processed ad sender and receiver Defined option headers Hop-by-hop options (processed by every node) Destination options Routing header Fragment header Authentication (AH) Encapsulating Security Payload (ESP) %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction IPv6 specific security issues hop-by-hop options header should be filtered out at typical internet gateway routing header should be filtered out like IPv4 loose source / record route ICMPv6 has to be allowed for neighbour discovery to work %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction IPv6 specific security issues iptables -> ip6tables changes matching of ah/esp not by -p ! matching of fragments not by -f ! no connection tracking in mainline kernel yet existing ip6_conntrack patchces (deprecated) code duplication no interaction between ip_conntrack/ip6_conntrack existing nf_conntrack patches one code base to rule them all ipv4 and ipv6 plugins l3 independent tcp and udp modules independent l3 independent helpers BUT: no NAT as of now :( %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% %page IPv6 Introduction Further Reading http://www.ipv6-net.org/ (deutsches IPv6 forum) http://www.6bone.net/ (ipv6 testing backbone) http://www.freenet6.net/ (free tunnel broker) http://hs247.com/ (list of tunnel brokers) http://www.bieringer.de/ (ipv6 for linux) http://www.linux-ipv6.org/ (improved ipv6 for linux) http://www.kame.net/ (ipv6 for *BSD) http://www.join.uni-muenster.de/ (ipv6 at DFN/WiN) http://www.gnumonks.org/ (slides of this presentation) And of course, all relevant RFC's