LISP-SDN-NFV - Internet Engineering Task · PDF fileSDN-NFV Barriers Addressed by LISP NFV May...
Transcript of LISP-SDN-NFV - Internet Engineering Task · PDF fileSDN-NFV Barriers Addressed by LISP NFV May...
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LISP-SDN-NFV
LISP WORKING GROUP IETF 88 Vancouver
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Carrier Use Case: Connecting Users to Functions
Today: Fragmented Bound to Routers, Topologically
segmented
Goal: Clouded Dynamically linked, Logically
segmented
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Approach: SDN .. but!
Problem: push, hop by hop, SDN model, doesn't scale Solution: federated-overlay, Map & Encap pull SDN model
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ConteXtream Confidential
LISP SDN Connects Users to Functions (NFV)
Underlay
Configuration Mapping
Analytics Mapping
Control Mapping
ContexMapping
Orchestration
Rest APIs
ContexView Performance
Analysis
LISP SDN Federation
PXTR PXTRNetwork Functions Network Functions
Federated Control Distributed Mapping
Programmable Network
XTR XTR
RTR
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SDN-NFV Barriers Addressed by LISP
NFV May slow traffic / Cost Benefit
Lower performance x higher utilization , fast global rollout defragmentation
Multi vendor and legacy interoperability
Outerlay multi functions, ALGs IP Legacy Underlay
Lack of standardization / Technology maturity
OpenFlow S, LISP E-W North Mapping Schemas
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ConteXtream Confidential
Federates FlowHandlers by Application-Location Mapping: ID-RLOC, Sub-Service, Class-Instance
rfc-draft-lisp4sdnfv (Dino, Fabio, Vina.. lispmob)
FlowHandlers
MPLSCDNIMSEPC
X
EPC-Gi
IMS-SBC
CDN
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SDN-NFV Form Carrier Solutions
NFV unbundles functions per feature & capacity SDN flow-mapping assembles & links components
NFV SDN
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SDN-NFV Chaining and Balancing
Chaining assembles a service from component classes Balancing ensures instances are pooled-defragmented
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Example: The virtual EPC Problem
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vEPC using LISP SDN-NFV
Identity-LocationIdentity-Affinity
ConteXtMapping
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ConteXt LISP SDN Federation in Open Daylight
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LISP-SDN Backhaul Map-Retag-Encap
L3 Switch 121.1
BGP
MPLS port 2
MPLS port 1 IP port
IP port
Any Routing
IP port
IP port IP port
IP port
L3 Switch 141.2
MPLS port 6
MPLS port 1IP port
IP port
| Tag7
XTR EID-RLOC Mapping RTR Segment (optimal)
121.1:2:7 141.2.6:3 S1
141.2.6:3 121.1:2:7 S2
RSVP
s2 | 141.2.6.3
RSVP
| Tag3
s1
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Thank You
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LISP Based Software Defined Network
Software Defined Overlay Network, connects resources over carrier IP LAN-WAN backbones.
Uses underlay IP for both transport and mapping-DB: north to orchestration, east-west ID-IP.
OpenFlows to (and from) Access and Internet are chained through carrier network functions.
Functions include: subscriber / m2m mobility, content caching, optimizations, and monetization.
Functions are flow-mapped locally-globally, form flat, non (location) fragmented, resource pool.
Flows steered per context: subscriber-function-application, context is kept in mapping database.
Flows recorded in an information export format (FIX), and bridged (TCP-O) across overlay mediums.
Flows cross locations using a mesh of overlay tunnels, the federated Overlay is Underlay aware:
Underlay multi-path options measured for queue-buildup, ensuring drop-less flow-tunnel delivery
Overlay traffic is steered through stateless-core landmark segments using re-tunneling headers
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Summary: Top 10 Carrier SDN Traits
Mapping: global-lookup, Sub-Service, EID-RLOC, App-VM Affinity: maintained under topology changes and VM motion Overlay: underlay measurements & landmark-segments aware Chaining: dynamically "linking" function classes to form services Balancing: flows mapped to pooled-defragmented functional instance Flow Bridging: 5 tuple TCP/UDP per flow jitter-buffers and window scaling Flow Recording: 5 tuple TCP/UDP per flow metadata IPFIX writes to mapping Flow Separation: ACL, tenancy, blacklists and white lists resilient to movement Flow Tapping: any flow at any point can be replicated and forked to .. elsewhere Flow Proxy: ALGs close mapping gaps between legacy (3GPP) and NFV scaling