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Crafting Confederations An overview of the Confederation POP Approach to Network Architecture. Dan Golding NetRail, Inc. [email protected]. Miguel Dimayuga Earthlink, Inc. [email protected]. The Old Way…. Conventional Network Routing Architectures…. - PowerPoint PPT Presentation
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Crafting ConfederationsAn overview of the Confederation POP Approach
to Network ArchitectureDan Golding NetRail, Inc.
[email protected] Dimayuga
Earthlink, [email protected]
.net
The Old Way…
Conventional Network Routing Architectures….
• Full Mesh iBGP or Route Reflectors
• A fully meshed Network via ATM PVCs.
• It’s not adapted to the New Optical Network!• POS is here in force, ATM’s value in the core is
receding.• It is far more fragile, and far less agile than newer
methods of Inter-domain Routing.• The Old Way was prone to user-error. The E-
Commerce Revolution demands a New Way!
What’s Wrong With The Old Way?
A Better Way• Emphasizes Large Scale, IP Based, Fiber Ring
Networks
• Optimized for Service Provider Needs
• Utilizes cutting edge routing technologies to provide far greater fault tolerance and usable traffic engineering.
• Implemented via advanced BGP techniques: Communities and Confederations.
How the Old worked…(Full Mesh iBGP)
• Every router must be fully meshed with all others.
• Works well in small systems
• Grows exponentially• Eventually consumes all
CPU, memory, and engineering resources.
Full iBGP Mesh
Exponential growth!
How the Old Way worked…(Route Reflectors)
• Scaled Well• Well suited to fully
meshed ATM Networks – Star Topology.
but...• Not Survivable in a
Fiber Ring Network.
Peer Isolation withBGP Route Reflection
Peers
RR Server
Peers
RR Client
How the Old Way worked…(Filtering)
• List of IP Prefixes and/or AS numbers set on all border routers to other ISPs. Only the access-list contents would be advertised.
• Worked well when most customers were single-homed and didn’t run BGP.
• Changes were VERY manpower intensive.
• With multi-homed e-commerce shops, no longer feasible.
How the New Way works…(Confederations)
• Routers peer with neighbors
• Highly Survivable
• Very Scalable• Easily
Configured• Aids
Troubleshooting Peers
Peers
Routers Peerwith
Neighbors
BGP Confederations
• BGP allows three types of peer relationships:– iBGP (Full iBGP mesh)– eBGP (External Peering or Transit)– Confederation eBGP (its an iBGP with an eBGP look!)
• Confederation eBGP is like regular eBGP, except– Next Hop, Local Preference and MEDs are preserved– Confederation elements in the AS-PATH are not counted for route
selection purposes
Confederation Overview
Confederation Overview• Confederations allow groups of routers to form “sub-
autonomous systems” to eliminate scaling problems with full mesh iBGP
• All Routers within a sub-AS must be fully meshed (or optionally in a route reflector cluster configuration)
• Confederations are most advantageous when there are few routers per sub-AS. There is no reason to limit the number of sub-AS’s you have – nothing is gained.
Confederation Overview• Most confederation designs start out with only two
or three sub-ASes. This offers few advantages over full mesh iBGP in a ring network topology.
• The more sub-ASes you add, the greater the advantage
• The final result: One sub-AS per POP
• The upper limit on this is 1000 sub-AS’s per RFC
The Advantages of a Confederation of POPs
• The routers within each POP need only peer with each other, utilizing iBGP
• Neighboring POPs are peered with via POP border routers speaking confederation eBGP
• Next Hop, Local Pref and MEDs are preserved• More survivable than Route Reflectors• Far more scalable than full iBGP mesh
How to Make It Work• Thoughtful use of sub-AS numbers• Local Preference Hierarchy• Useful and Descriptive Community Strings• Meaningful MEDs• Use of various policies – via access lists,
community lists, etc – as building blocks• Use of Peer Groups whenever implementation
allows.
Sub-AS Assignment• Sub-AS’s become useful tools for debugging –
show ip bgp, show route • Suggested assignment is geographical• Always remember to keep room for expansion!• Put plenty of extra sub-AS’s in your configs –
don’t count on adding them later!
• Southeast 65000-65099• Northeast 65100-65199• Northcentral 65200-65299• Southcentral 65300-65399• Western 65400-65499• Canadian 65500-65535• Latin/South American64512-64599• European 64600-64699• Asian 64700-64799• Reserved 64800-64999
Geographical Region as sub-AS
Sample Community Assignments
msp
4xT1354
65407OAK
65405SEA
65100NYC
65200CHI
65406DEN
65300DAL
65000ATL
65401PHX
65400LAX
65101DC
65005RTP
65203CLE
65102BOS
• Communities are “tags” or “post-it notes” attached to routes to help identify them. – There can be more than one community attached to a route.
• Communities are recommended to be set at the ingress point. – Communities need be applied only once– administrative burden and complexity is greatly reduced.
• When routes egress, filtering can be based on one or more community strings.
• Sample Communities – Regional, by Peer, Customer, Internal, Peer, Transit
Community Strings are the Key
Communities Set at Ingress
AS701
AS4355
transitrouter bgp 4355network 207.69.0.0/16 route-map make-greennetwork 199.174.166.0/24 route-map make-red
207.69.0.0/16 i198.99.146.0/24 i
4.0.0.0/8 i 5.0.0.0/8 i
router bgp 4355neighbor a.a.a.a remote-as 701neighbor a.a.a.a route-map make-blue in
4.0.0.0/8 701 i 5.0.0.0/8 701 i
Communities Used to Filter on Egress
AS701
AS3703AS4355
transit
customer
207.69.0.0/16 i198.99.146.0/24 i
4.0.0.0/8 i 5.0.0.0/8 i
4.0.0.0/8 701 4335 i 5.0.0.0/8 701 4335 i207.69.0.0/16 4335 i
router bgp 4355neighbor b.b.b.b remote-as 3703neighbor b.b.b.b route-map blue-green out
4.0.0.0/8 701 i 5.0.0.0/8 701 i
• Customer Routes 4006:65150• Private Peering 4006:65140• Transit 4006:65130• Public Peering 4006:65120
• Internal Routes (OPN-visible) 4006:65110• Internal Routes (Global-visible) 4006:65100
Community Categories – Route Type
Other Peoples Networks (OPNs)• To expand our national coverage, Mindspring utilized
third party networks’ dialup facilities. These networks are what we term as OPNs.
• Prefixes for Core Services which we want restricted to MindSpring customers and not visible to the rest of the world (e.g. news, radius, smtp) are announced to our OPNs alone.– This has the added advantage of protecting against abuse of our
services by non-customers.
• With communities, we can tag routes for export to OPNs alone.
• Field Peering 4006:65020• Exchange Point Peer 4006:65010
• Northeast Region Peering (DC) 4006:65030• Southeast Region Peering (Atlanta) 4006:65040• Northcentral Region Peering (Chicago) 4006:65050• West Peering Region (Palo Alto) 4006:65060• Southcentral Region Peering (Dallas)4006:65070
Community Categories – Route Ingress Location
Community Categories – Specials• No Export to any external BGP peer
No-Export• Do Not Advertise to any peer (Well Known)
No-Advertise• Always Prefer (proposed Well Known)
Prefer-Me (65535:65519)• Always Avoid (proposed Well Known)
Avoid-Me (65535:65504)
Also add a community string for the origin AS
If the route comes from UUNet, then add 4006:701
If the route comes from Sprint, then add 4006:1239
Community Categories – Origin AS
router bgp 4355neighbor b.b.b.b remote-as 4006neighbor b.b.b.b route-map setlocpref90 in
router bgp 4355neighbor c.c.c.c remote-as 701neighbor c.c.c.c route-map setlocpref60 in
Local Preference
AS4006
AS3703AS4355
peering
customer165.200.1.0/24 100 3703 i
165.200.1.0/24 1 3703 i
165.200.1.0/24 i
router bgp 4355neighbor a.a.a.a remote-as 3703neighbor a.a.a.a route-map setlocpref100 in
165.200.1.0/24 60 701 3703 i
AS701
165.200.1.0/24 1239 3703 i
transit
165.200.1.0/24 90 4006 3703 i
• The higher the Local Preference, the more desirable the route.
• Customers ALWAYS come first – we never want to send their traffic to a peer, regardless of AS-Path padding
• Private Peering is always more desirable than Public Peering
• Transit is less desirable than private peering for economic reasons
Local Preference Hierarchy
• Always Preferred 250• Customer Routes 100• Customer Backup Routes 90• Private Peering 80• Less Preferred Private Peering (congested) 70• Paid Transit 60 • Less Preferred Paid Transit (congested) 50• Public Peering (ATM NAPs) 40• Less Preferred Public Peering (FDDI NAPs) 30• Never Preferred 1
Local Preference Hierarchy
Peer Types• Local sub-AS Peer (within a POP)• Confederation Peers (other POPs or sub-ASes)• Transit Peers (we buy transit from them)• Public/Private Peering • Customer Peers
Local sub-AS Peers• All peers within a POP are members of this group.• The update source for these BGP sessions will be
the loopback address of the router.• Communities must be recognized.• Option to use full-mesh or route-reflectors.
For Each Local Sub-AS Peerneighbor <neigh-ip A> remote-as <neighbor-as A>neighbor <neigh-ip A> description otherlocalrouternameneighbor <neigh-ip A> update-source loopback0neighbor <neigh-ip A> send-communityneighbor <neigh-ip A> version 4
Update-Source Loopback Address• The routers will use loopback address as the
source of the bgp packets. – Only one session needs to be created even with
multiple paths between routers.• Peering between loopback addresses increase the
stability of the bgp sessions since loopback addresses don’t go down.
207.69.132.1/24 207.69.132.2/24
207.69.133.1/24 207.69.133.2/24192.168.128.1/32 192.168.128.2/32
• All peers that are POP border routers are members of this group.
• The update source for these BGP sessions will be the facing interface of the router.
• Inbound Soft Reconfiguration is not necessary.– Outbound soft reconfiguration can be done at the remote end
• Communities must be recognized.• Filtering is done on egress, MEDs are set on ingress.
Confederation Peers
Soft Reconfiguration• “clear ip bgp” drops the TCP session. Soft
reconfiguration is much friendlier.
• “clear ip bgp <neighbor-ip> soft out” issues withdrawals for all advertised routes, recomputes and then resends the routes (low cpu)
• “clear ip bgp <neighbor-ip> soft in” reevaluates routes received from its peers stored in memory. (high memory requirements)
Peer-Groupneighbor internal peer-groupneighbor internal version 4neighbor internal send-community For Each Peerneighbor <neigh-ip A> remote-as <neighbor-as A>neighbor <neigh-ip A> description remotesitenameneighbor <neigh-ip A> route-map <site>-recv-<remotesite> inneighbor <neigh-ip A> route-map <site>-send-<remotesite> outneighbor <neigh-ip A> peer-group internal route-map <site>-recv-<remotesite> permit 10set metric +<metric>
route-map <site>-send-<remotesite> permit 10match community <send-all-except-no-advertise-routes>
Confederation Peer Configuration
Confederation Peer Routes• Don’t Send: No Advertise• Send: Customer, Peer, Transit, Internal
Additive MEDs• Why
– Allows a tiebreaker based on optimum routing– Allows an alternate method to de-prefer routes in case of
transit/peering congestion• Possible Values –
– Mileage– delay in ms– fixed value per hop
• Supported by -– Cisco IOS– Feature Request in JUNOS, Riverstone, Foundry IronWare
Additive MEDs in Confederations
65401HOU
65400DAL
65012BHAM
65000ATL
207.69.0.0/16 120 (65000)
207.69.0.0/16 0(originated here)
207.69.0.0/16 700 (65012 65000)
120580
60040
207.69.0.0/16 720 (65012 65000)207.69.0.0/16 740 (65400 65012 65000)
207.69.0.0/16 760 (65401 65012 65000)
• The update source for these BGP sessions will be the facing interface address of the router.
• Soft Reconfiguration should be used.• Communities must be recognized.• Send out only customer and internal routes. • Apply an import ACL to the routes that prevents reception
of martian routes, and assigns proper communities and local preference.
• Allows prepending certain subsets of routes with additional AS numbers.
Transit Peers
neighbor <neighbor-ip> send-communityneighbor <neighbor-ip> version 4neighbor <neighbor-ip> next-hop-self neighbor <neighbor-ip> soft-reconfiguration inboundneighbor <neighbor-ip> distribute-list martians inneighbor <neighbor-ip> remote-as <neighbor-as C>neighbor <neighbor-ip> route-map <site>-recv-<provider> inneighbor <neighbor-ip> route-map <site>-send-<provider> outneighbor <neighbor-ip> description transitprovidername route map <site>-send-<provider> deny 10match community 4
route map <site>-send-<provider> permit 20match community 1 set as-path prepend 4006 4006
route-map <site>-recv-<provider> permit 10
set local-preference 60
set metric 0 (if you don’t want to listen to others meds)
Set community 4006:30 additive
Set community 4006:20 additive
Set community 4006:500 additive
Set community 4006:<AS#> additive
Transit Peer Config
• Don’t Send: No Exports, No AdvertisePeers or Transit
• Send: Customers, Internal
Transit Peer Config
• De-prefer routes for congested outbound– Set Local Pref normally for routes with AS-Path Length=1 or 2– Set Local Pref Lower for all other routes– Effect: Only most direct routes flow through that connection.
Others flow through other transit, if available
• OPN’s and sending OPN routes– Send special routes – usually for servers and services – only to
your own network, and OPNs– Have a special community list or policy specifying the routes.
Transit Tricks
• The update source for these BGP sessions will be the facing interface address of the router.
• Soft Reconfiguration should be used.• Communities must be recognized.• Send out only customer and internal routes. • Apply an import ACL to the routes that prevents reception
of martian routes, and assigns proper communities and local preference.
• Option to use local preference to prefer unconditionally all or only some routes coming from a free peer.
Private/Public Peers
Peer Configurationneighbor free-peering peer-groupneighbor free-peering send-communityneighbor free-peering version 4neighbor free-peering next-hop-selfneighbor free-peering-full soft-reconfiguration inboundneighbor free-peering-full distribute-list martians inneighbor free-peering route-map <peername>-in inneighbor free-peering route-map cust-routes out
route map cust-routes deny 5match community-list 4 route-map cust-routes permit 10match community-list 1 route-map <peername>-in permit 10set local-preference 80set community 4006:30 additiveset community 4006:20 additiveset community 4006:700 additiveset community 4006:<AS#> additive
Per-Peer neighbor <neighbor-ip> remote-as <neighbor-as D>neighbor <neighbor-ip> peer-group free-peeringneighbor <neighbor-ip> description Peer Name
• Don’t Send: No Exports, No AdvertisePeers or Transit
• Send: Customers, Internal
Free Peering Routes
• The update source for these BGP sessions will be the facing interface address of the router.
• Soft Reconfiguration should be used.• Communities must be recognized. This includes
communities sent from customers.• Send out selected routes, based on customer request.• Apply an import ACL to the routes that prevents reception
of martian routes, and assign proper communities and local preference.
• The import filter must also accept only specific customer routes.
– We recommend using Rtconfig to query RADB and generate the ACLs.
Customer Peers
• Full Routes – Customer, Peers, Internals, Transit. – AKA “A Full View”
• Customer Routes– Customer and Internal Routes. – Good for weaker routers (Cisco)– AKA “A Partial View”
• Default Route– Send only a default route - 0.0.0.0/0, pointed to the
router interface– Limited utility
What Type of Routes Can We Send?
Special Considerations for Customers
• Carefully Filter routes – the farther downstream you get, the less clueful (generally)
• Filtering can be based on AS or Prefix• The generally accepted practice is to filter by IP
Access List at ingress (use radb tools if possible)• Customers do not have to advertise the same
routes everywhere – peers do!
Customer Configuration – Full Routesbgp {
group <location-customername> {type external;description <peer-name>;peer-as <neighbor AS #>;neighbor <ip address>;import <customername>-in;
}}policy-options {policy-statement <customername>-in {
term term1 {from policy <location-customername>;then {
local-preference 100;nexthop self;community + customer;community + field
community + ATL; community +
<customername>;}
}}
policy-statement atl-myco { from { route-filter 209.49.143.0/24 exact accept; route-filter 199.5.0.0/16 exact accept; } then reject
bgp {group <location-customername> {
type external;description <peer-name>;peer-as <neighbor AS #>;neighbor <ip address>;import <customername>-in;export custroutes;
}}policy-options {policy-statement <customername>-in {
term term1 {from policy <location-customername>;then {
local-preference 100;nexthop self;community + customer;community + field;community + ATL;community + <customername>;
}}}
Customer Configuration – Partial Routes
policy-statement atl-myco { from { route-filter 209.49.143.0/24 exact accept; route-filter 199.5.0.0/16 exact accept; } then reject
policy-statement custroutes { term term1 { from community [no-export no-advertise]; then reject; } term term2 { from community [internal customer custback]; then accept; }
• Cisco – neighbor a.b.c.d default-originate• Juniper - A little more complex...
bgp {group <location-customername> {type external;description <peer-name>;peer-as <neighbor AS #>;neighbor <ip address>;import <customername>-in;export default-originate; }
}routing-options {
static {route 0.0.0.0/0 {nexthop <loopback address>;no-install; }}
Default Route Only
policy-statement default-originate {
from route-filter 0.0.0.0/0;
then {
nexthop self;
accept;
}
Question and Answer• Confederations• General BGP Questions
The New Way gives us…• Less complexity• More stability• More flexibility for traffic management• Greater Survivability• Lower Engineering and Administrative costs.• Increased Uptime• A Scalable, Next Generation IP Network
• RFC 1771 A Border Gateway Protocol 4 (BGP-4)• RFC 1965 Autonomous System Confederations for BGP• RFC 1930 Guidelines for creation, selection, and
registration of an Autonomous System (AS) • RFC 1997 BGP Community Attributes• Nussbacher, Rudnev, and Hares, Global BGP Community
Values, Internet Draft, 12/99• Halabi, Bassam; Internet Routing Architectures• Freedman, Avi, Lecture Notes: January 1999 NANOG
Conference Session: “BGP 102”
Bibliography
In Tribute to the Memory of...• MindSpring Enterprises, Inc.
• Brandon Ross, Netrail• Avi Freedman, Akamai• Khalid Raza, Cisco
Very Special Thanks to…