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Experiences with Implementing MPLS/VPN Services

Experiences with Implementing MPLS/VPN Services. Philip Bridge Nextra (Schweiz) AG 18.10.2000. Some Paraphrases. ‘For the first time in the history of the Internet the transmission people are giving the network people more bandwidth than they know what to do with’ Peter Lothberg

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Experiences with Implementing MPLS/VPN Services

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  1. Experiences with ImplementingMPLS/VPN Services Philip Bridge Nextra (Schweiz) AG 18.10.2000

  2. Some Paraphrases • ‘For the first time in the history of the Internet the transmission people are giving the network people more bandwidth than they know what to do with’ • Peter Lothberg • ‘If you aren’t scared, you don’t understand’ • Mike O’Dell Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  3. MPLS-based VPN ‘Private’ Internet IP Backbone Layer-2 Switching IP Routing Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  4. MPLS Label Switch Router (LSR) Provider Edge Router (PE) Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  5. MPLS • IP Routing creates consistent, network-wide Routing Tables LSR IP Routing Protocol (OSPF, IS-IS) PE Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  6. MPLS • Label Distribution Protocol runs in parallel to IP routing • LSRs use LDP to swap IP Route-to-Label bindings • Creates Label Forwarding Tables Label Distribution Protocol Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  7. MPLS • LDP & IP Routing create Label Switch Paths between PE routers Local label Remote label IP prefix o/p interface Local label Remote label IP prefix o/p interface 3 5 3.3.3.3 C 5 X 3.3.3.3 A X 3 10.0/16 A 2) I reach 3.3.3.3 via int C, label 5 LSP Local label Remote label IP prefix o/p interface X 3 3.3.3.3 F X 3 10.0/16 A C 3.3.3.3 A F 4) I reach 3.3.3.3 via int F, label 3 3) To reach 3.3.3.3 via me use label 3 1) To reach 3.3.3.3 via me use label 5 Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  8. MPLS • PE routers ‘encapsulate’ IP packet with Label header • Works an any layer-2 (Ethernet, WAN link, ATM…) Local label Remote label IP prefix o/p interface Local label Remote label IP prefix o/p interface 3 5 3.3.3.3 C 5 X 3.3.3.3 A X 3 10.0/16 A Local label Remote label IP prefix o/p interface 5 3.3.3.3 X 3 3.3.3.3 F X 3 10.0/16 A C 3.3.3.3 A F Label IP DA IP Data 3 3.3.3.3 IP Packet 3.3.3.3 IP Packet Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  9. MPLS • Normal IP ‘connectionless’ routing builds layer-2 LSP ‘circuits’! • LSPs take same path that would be taken by IP-based forwarding Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  10. MPLS & Network Scalability • LDP & OSPF IP routing build LSPs between PE routers 2) To reach 3.3.3.3 via me use label 3 1) To reach 3.3.3.3 via me use label 5 3) I reach 3.3.3.3 via int F, label 3 C A F 3.3.3.3 2.2.2.2 Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  11. MPLS & Network Scalability • PE-PE LSPs used to build BGP session between PE routers • Core LSRs do not have any BGP routing LSP between BGP endpoints C A F 3.3.3.3 BGP Session 2.2.2.2 Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  12. MPLS & Network Scalability • BGP tells each PE which remote PE for each external route • Recursive lookup in the routing table to find a route to the remote PE • Route to the remote PE is actually a LSP LSP between BGP endpoints 5) BGP neighbor 3.3.3.3 has a route to 10.0/16... C 10.0/16 A F 3.3.3.3 BGP Session 2.2.2.2 6) …so to reach 10.0/16 I use int F, label 3 4) BGP: I have a route to 10.0/16 Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  13. MPLS & Network Scalability • BGP route exchange between PEs, no BGP in Core • LSPs only established between BGP session endpoints • A few LSPs carry 1000’s of Edge routes between PEs • Complex routing can be ‘pushed out’ of the Core to the Edges Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  14. MPLS & VPNs • BGP Edge Routes are hidden from the Core • IP addresses of data packets are hidden from the Core • Overlapping ‘address families’ can share the Core…VPNs! Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  15. Virtual Routers • PE-PE BGP hides Customer routes from Core • MPLS hides IP addresses of packets from Core • But routes and and addresses are still visible in PE routing table! 10.0/16 B C F 3.3.3.3 10.0/16 BGP Session A 2.2.2.2 Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  16. Virtual Routers • Solution is to assign a ‘Virtual Router to each Customer port • Routing Tables in Virtual Routers are invisible to each other • Cisco name: Virtual Routing and Forwarding Instance (VRF) 10.0/16 B C F 3.3.3.3 A 10.0/16 BGP Session 2.2.2.2 Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  17. Layer 2 Labels • Extend BGP to carry L2 labels and routes • PE uses 2nd Level Label (L2) to distinguish between VPNs 1) BGP:To reach 10.0/16 via me use L2 10 2) BGP: To reach 10.0/16 via me use L2 12 3) To reach 10.0/16 via 3.3.3.3 I use L2 10 4) To reach Next Hop 3.3.3.3 I use int F, L1 label 3 10.0/16 B C F 3.3.3.3 A 10.0/16 BGP Session 2.2.2.2 5) …so to reach 10.0/16 I use int F, L1 label 3, L2 label 10 Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  18. Layer 2 Labels • 1st Level Label gets packets to correct destination PE • Destination PE strips 1st Level Label (L1) from incoming packets • Destination PE uses 2nd Level Label (L2) to forward incoming packets to correct VRF 1) Packets arriving with L2 10 are for red VRF 2) Packets arriving with L2 12 are for blue VRF 10.0/16 B C F 3.3.3.3 A 10.0/16 BGP Session 2.2.2.2 Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  19. VPN Forwarding • Packet arrives on interface E = red VRF • PE looks up route to 10.0.0.1 in VRF Routing Table • BGP route from 3.3.3.3 gives L2 = 10 • Recursive lookup on Next Hop 3.3.3.3 gives L1 = 3 • Packet label switched through Core to 3.3.3.3 • L1 removed • L2 tells PE router to treat packet according to red VRF • L2 removed, packet forwarded out of interface A 3 10 10.0.0.1 IP Packet C 10 10.0.0.1 IP Packet 3.3.3.3 L1 L2 IP DA IP Data A F 3 10 10.0.0.1 IP Packet 10.0.0.1 IP Packet E 10 10.0.0.1 IP Packet 10.0.0.1 IP Packet Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  20. MPLS & VPNs • MPLS VPNs are like ‘Private Internets’ • Internet protocols work within the VPN • Easy to understand - similar to Frame-Relay • Compliments Tunnel-based (IPSec) VPNs Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  21. IP Backbone Sharing IP Backbone ‘Private’ Internet ‘Private’ Internet ‘Private Internet’ Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  22. Frame Relay Comparison Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  23. Frame Relay Comparison ‘Private’ Internet Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  24. MPLS & VPNs • Customers A and B want their own VPNs, and an ExtraNet • Customer A wants to connect his VPN to the Internet • Customer B does not trust security of Customer A... Internet Service VPN-B Extra Net VPN-A Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  25. Experience with MPLS VPNs • Customer VPNs in service for >1 year. • Several dozen VPNs • Sizes between 2 and dozens of sites • Average size of ca. 10 sites. • 50:50 mixture of managed/unmanaged CPE • Many VPNs have fixed and Dial-Up Access Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  26. Experience with MPLS VPNs • Many VPNs are combined with Internet Access Service, and a large proportion of these with managed Firewall services. • From the Customer perspective, an MPLS VPN ‘looks’ different from a classical IP network. This has to be explained. • strange traceroutes • discontiguous routing domains Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  27. Experience with MPLS VPNs • MPLS labels increase the length of a packet. Can be a problem with Ethernet equipment from some vendors. Was a big problem for us at the beginning. Is still a problem for IPsec VPNs • Equipment vendor MPLS/VPN implementations are reliable. Still some small bugs and missing features, but nothing that can’t be worked around Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  28. Experience with MPLS VPNs • MPLS/VPN is a very powerful paradigm for building an infrastructure that can deliver rich set of Services very flexibly and very rapidly • It is a simple concept, but there are so many implementation possibilities that complexity can (very) easily can get out of control Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  29. Experience with MPLS VPNs • Tools to properly manage VPNs are still lagging way behind the network functionality • Available tools restrict the ability of a Service Provider to innovate and develop solutions that are unique • GUIs for provisioning are OK, but the real problem is fault resolution…about 5-10 times more difficult to resolve problems than normal IP-based ISP networks Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  30. Experience with MPLS VPNs • It is crucial to impose a structured, modular Service model onto the VPN architecture from the beginning • Helps Salesmen and Customers to understand what can and cannot be done • Helps implementation team to configure the solution • Helps NOC to trouble-shoot • Reduces load on 3rd level pre-sales & support Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  31. Next Challenges • Integration of MPLS/VPN and DiffServ QoS • Multi-provider/Multi-AS extension of MPLS/VPN based Services • Traffic Engineering Doc ID: TE-Q-1.01.06-E-17 / Version 1.0 / Release: 28.10.1999

  32. Thank You!http://www.swinog.ch/swinog1/presentations.htmlpbridge@nextra.ch

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