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IAB/IESG Recommendations on IPv6 Address Allocation. Bob Hinden at RIPE Sept. 2000 Brian Carpenter at ARIN Oct. 2000 Alain Durand at APNIC Oct. 2000. OVERVIEW. Introduction Background Recommendation Address Space Conservation Multihoming Summary. INTRODUCTION.
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IAB/IESGRecommendations on IPv6 Address Allocation Bob Hinden at RIPE Sept. 2000 Brian Carpenter at ARIN Oct. 2000 Alain Durand at APNIC Oct. 2000
OVERVIEW • Introduction • Background • Recommendation • Address Space Conservation • Multihoming • Summary
INTRODUCTION • RIRs asked the IETF for comments on Provisional IPv6 Allocation Policy • IPng working group discussed /48 issue in July 2000 • IPv6 Directorate developed recommendation • IAB & IESG Reviewed and Approved
PREVIOUS DISCUSSION • Discussion at Adelaide IETF • Suggestion to allocate /56 prefixes instead of /48 for homes and small businesses • Subsequent analysis shows significant advantage to uniform /48 allocations to all subscribers (homes, large and small enterprises)
BACKGROUND • Address allocation is a balance • Responsible allocation practices • Easy access • Allocation practices have significant effect on deployment and usage • Important for the deployment of IPv6 to make allocations easy and not slow deployment
IPv6 UNICAST ADDRESS 3 13 8 24 16 64 FP TLA R NLA* SLA* INTERFACE ID Public Topology Site Topology Interface Identifier
Initial “slow start” allocations out of FP = 001 TLA = 0x0001 INITIAL ALLOCATIONS 3 13 13 6 13 16 64 FP TLA Sub- R NLA SLA INTERFACE ID TLA
IPv6 RENUMBERING • Renumbering in IPv6 is considerably improved (from IPv4) • However • Not invisible, painless, or automatic • Renumbering still not free
IPng W.G. RECOMMENDATION ON SITE PREFIX LENGTH • Specified in RFC2374 & RFC2450 • Subnetted sites should be allocated /48 prefix • Allows 216 subnets • Large enough for almost all sites • Issue is size of prefix for smaller sites • /64 for single subnet sites? • Single hosts? Mobile phone? • Temporary vs. permanent usage? • How to judge usage?
RECOMMENDATION • Recommend /48 fixed boundary for all subscribers (homes, large and small enterprises) • Except • Very large subscribers (receive multiple /48 allocations,e.g., a /47 or /46…) • Transient nodes • No interest in multiple subnets (receive /64) • Consistent with responsible stewardship of the IPv6 Address space
JUSTIFICATION • Fixed boundary guarantees change of ISP does not require restructuring of subnets • Facilitates straightforward renumbering • Compatible w/ all known IPv6 Multihoming proposals • Allows easy growth of subscriber networks • Eliminates need to go back to ISP for more addresses
JUSTIFICATION (2) • Removes burden on ISPs and RIRs to judge customers’ need for space • ISPs do not need to ask for details of customer networks • ISPs and RIRs do not have to judge rates of customer address consumption • Makes RIR operations more efficient • Subscriber address space no longer scarce resource • Removes incentive for IPv6/IPv6 NAT
JUSTIFICATION (3) • Allows site to maintain single reverse-DNS zone covering all prefixes • Same subnetting structure allows same zone file for all prefixes • Using RFC2874, reverse mapping data can be used in “forward” (name-keyed) zone
FURTHER ADVANTAGES OF /48 • Keeps open the possibility of GSE-like (a.k.a. “8+8”) separation of locators and identifiers • IRTF Name Space Research Group is looking at this general area • Maintains 1 to 1 mapping of subnets with Site local prefix (fec0::/48) • Maintains 1 to 1 mapping of subnets with 6to4 proposal
CONVERVATION OF ADDRESS SPACE • Does giving a /48 to all subscribers waste too much IPv6 address space? • No, the IPv6 address space is very large • Aggregatable Unicast Address format supports 45 variable bits • 245 or 35 Trillion
ANALYSIS • RFC1715 defines an “H” ratio based on address space assignment in various networks • A 45 bit address space at an “H” ratio of .25 would support 178 Billion site prefixes H = log10 (178 * 109) / 45 = 0.25 (Note: Projected world population in 2050 is ~10 Billion*) • Comparable to the “H” ratio of • US Telephone numbers, France Telephone numbers, DECnetIV, or IPv4 addresses mid 1990s * http://www.popin.org/pop1998/
ANALYSIS (2) • We are only discussing assignments from Aggregatable Global Unicast Format Prefix (001) • 85% of remaining address space is unassigned • If in the future our analysis proves to be wrong • Our successors have option of imposing more restrictive allocation policies
MOBILE DEVICES • Vehicles, Cell Phones, etc. • Allocation • Static /64 prefix (allows multiple devices) • Temporary /128 (Mobile IP “care-of address”)
DIAL UP • Subscriber with single dialup node who prefers a transient address • Autoconfig a /128 out of a /64 prefix • Home or small enterprise subscriber who wants static assignment or plans a multiple node network • Receive /48 even if dialup
IPv6 MULTIHOMING • IPv6 multihoming is work in progress • IPv4 multihoming techniques can be applied • One prefix advertised by multiple ISPs • Routing table grows with number of multihomed subscribers • IPng working group looking at other approaches
MULTIHOMING APPROACHES • IPv4 Style • How to scale backbone routing? • Host Mechanisms • Site receives a prefix from each ISP • Prefixes carried by site routing • Nodes select addresses to use • How to pick best Source and Destination addresses? • Border Router Mechanisms • Tunneling • Route injection
MULTIHOMING FUTURES? • Other approaches? • Better ideas?
SUMMARY • Careful stewardship of IPv6 address space is important • Allocation of /48 prefixes has many advantages • Allocation of /48 prefixes to all subscribers is consistent with careful stewardship • Size of IPv6 address space supports this approach
ISSUES FROM RIPE & ARIN • RIPE • Recommendation accepted • Discussion about size of initial ISP allocation ( / 35 ) • ARIN • Question about “H” Ratio analysis • These slides augmented to clarify