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Transcript
RANGER, VET, SEAL and
IRON
Fred L. Templin – IETF77
[email protected]
BOEING is a trademark of Boeing Management Company.
Copyright © 2010 Boeing. All rights reserved.
Routing and Addressing in Networks with Global Enterprise
Recursion (RANGER)
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
• Recursively-nested connected local network regions joined by Enterprise Border
Routers (EBRs) – a network-of-networks
• each distinct local network region is an “enterprise” unto itself
• example use cases:
•
•
•
•
•
•
Internet interdomain core
large academic campus network
corporate enterprise network
ISP networks
civil aviation networks
Mobile Ad-hoc Networks
Copyright © 2010 Boeing. All rights reserved.
How RANGER Works
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
• RANGER “concatenates” enterprises into a path with recursive re-encapsulation
• Internet Protocol, Version 4 (IPv4) for local routing and addressing
• Internet Protocol, Version 6 (IPv6) for global routing and addressing
•Routing scaling through spatial reuse of
local addressing (RLOCs) with mapping
system for global addresses (EIDs)
•Global communications through recursive
re-encapsulation across local routing
regions (EIDs)
•VET and SEAL
Internet
IPv4
IPv4
IPv4
IPv4
IPv4
IPv4
IPv6
Copyright © 2010 Boeing. All rights reserved.
A RANGER Path Constructed
using CATNET Principles
IPv6
Virtual Enterprise Traversal (VET)
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
• Concerns traversal of a single enterprise within the recursive nesting
• automatic tunneling over Non-Broadcast, Multiple Access (NBMA) links
• EBR discovery to discover exit routers for getting off the enterprise:
• default routes through “default mappers” connected to provider networks
• more-specific routes through EBRs connected to peer networks
• Secure Redirection
• Router-to-router tunneling
• Only border routers are modified
• Version 2 of ISATAP
Copyright © 2010 Boeing. All rights reserved.
How VET Works
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
< Default Mappers >
IPv4 network
IPv6 network
Copyright © 2010 Boeing. All rights reserved.
IPv6 network
Subnetwork Encapsulation and Adaptation Layer (SEAL)
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
• tunneling adds encapsulation overhead that reduces the path
MTU as seen by the original source
• avoid path MTU discovery if possible due to unnecessary packet
loss; black-holing due to ICMP filtering
• have the tunnel do transparent link-layer adaptation
• tunnel ingress discovers MRU of tunnel egress
• end result is 1500 and larger gets through
SEAL supports synchronization between tunnel
endpoints, so off-path DOS attacks are prevented
Copyright © 2010 Boeing. All rights reserved.
How SEAL Works
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
< Default Mappers >
IPv4 network
IPv6 network
Copyright © 2010 Boeing. All rights reserved.
IPv6 network
The Internet Routing Overlay Network (IRON)
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
• Routing Information Base includes small number of
coarse-grained “Virtual Prefixes” (e.g., a few ::/8’s)
• Dynamic routing protocols (OSPF, BGP) exchange
Virtual Prefixes (VPs)
• More-specific prefixes added to router FIBs ondemand and data driven (based on secure redirection)
• Most router FIBs contain only a few more-specifics
• Hybrid routing with dynamic routing protocols in the
RIB and on-demand data-driven in the FIB
Copyright © 2010 Boeing. All rights reserved.
Civil Aviation Example
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
IPv
6
IPv
6
European-Regional
ANSP
IPv
6
Asian-Regional
ANSP
Global ATN Backbone
Routing and Addressing
Domain (IPv4)
US-Regional
ANSP
ATC Workstation
Air Traffic Control
Functional Domain
Global Internet (IPv6)
Copyright © 2010 Boeing. All rights reserved.
Enterprise Network Example
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
•
& Addressing in Next Generation EnteRprises (RANGER)
• PRouting
•
Network-of-networks architecture
•
•
•
•
•
Minimal touch-points (border routers only)
No changes to most hosts and routers
Fully-provisioned IP services; balanced blend of tunneling,
translation and native
Gradual integration of IPv6
•
Customer-driven requirements lead policy and strategy
•
IPv6 and IPv4 in peaceful co-existence
•
It’s not an “either-or” decision
Tangible Benefits
•
Secure Mobile Architecture (SMA)
•
simplified management
•
logical partitioning
•
traffic engineering
•
end-to-end addressing
•
mobility and multihoming
IPv4 Internet
IPv6 Internet
Enterprise
Network
Enterprise
EnterpriseNetwork
Network
Initial
IPv6
Deployment
Fully
Provisioned
IP Services
Advanced
IPv4-Only
IPv6
Deployment
Copyright © 2010 Boeing. All rights reserved.
Engineering, Operations & Technology | Boeing Research & Technology
FaST | Networked Systems Technology
• Intra-Site Automatic Tunnel Addressing Protocol (ISATAP)
http://www.ietf.org/rfc/rfc5214.txt
• Routing and Addressing in Networks with Global Enterprise Recursion
(RANGER)
http://www.ietf.org/rfc/rfc5720.txt
• RANGER Scenarios
http://tools.ietf.org/html/draft-russert-rangers
• Virtual Enterprise Traversal (VET)
http://www.ietf.org/rfc/rfc5558.txt
http://tools.ietf.org/html/draft-templin-intarea-vet
• Subnetwork Encapsulation and Adaptation Layer (SEAL)
http://www.ietf.org/rfc/rfc5320.txt
http://tools.ietf.org/html/draft-templin-intarea-seal
• The Internet Routing Overlay Network (IRON)
http://tools.ietf.org/html/draft-templin-iron
Copyright © 2010 Boeing. All rights reserved.