Loop protection and IPFRR - PowerPoint PPT Presentation

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Loop protection and IPFRR

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There are many cool things you can do with tunnels, but... Even when so engineered, a single failure may break it for subsequent failures. 10 ... – PowerPoint PPT presentation

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Title: Loop protection and IPFRR


1
Loop protection and IPFRR
  • Alia Atlas
  • Stewart Bryant
  • Mike Shand

2
Loop-prevention techniques under discussion
  • PLSN
  • oFIB
  • Tunnels?
  • There are many cool things you can do with
    tunnels, but
  • Ubiquitous tunnelling is coming, but not yet
  • Really need a solution now!
  • We wont consider tunnels for loop-prevention

3
Applications
  • Planned operational maintenance for topology
    changes
  • including metric changes for TE purposes
  • Unplanned changes (i.e. failures)
  • IPFRR
  • MPLS FRR
  • I.E. loop free convergence is an IETF matter not
    just an IPFRR local matter

4
PLSN characteristics
  • Around 80 protection
  • But VERY topology sensitive
  • On average prevents 50 of current loops
  • Computed per prefix
  • Completed in 3 worst case FIB times
  • 2 without type B
  • Deals naturally with SRLG
  • Albeit, with reduced protection
  • Good correlation with LFA
  • Partial coverage poor for managed change

5
oFIB characteristics
  • 100 protection
  • Simple computation for single link or node change
  • SRLG requires computation per failed link (worst
    case)
  • Adds optimizing message to obtain sub-second
    convergence
  • Worst case if all messages lost is up to network
    diameter (worst case) FIB times.
  • Doesnt build on PLSN
  • Handles managed changes and single failures
    completely.
  • Messages add some implementation complexity

6
Management application constraints
  • Really need 100 coverage for management changes
  • Otherwise they are not benign
  • SRLG not an issue because you can always
    decompose into constituent links
  • Points to oFIB

7
IPFRR application constraints
  • For basic IPFFR PLSN fits well
  • Coverage is correlated
  • But oFIB is better because it has 100 coverage
  • Of course, an incomplete IPFRR mechanism means
    that a longer convergence may be of concern.
  • For any complete fast reroute method 100 loop
    prevention is highly desirable.

8
IPFRR technologies under discussion
  • basic (LFAs)
  • Not-via

9
LFA charactersitics
  • Only 80 (65 to 95) coverage
  • Good in highly meshed topologies
  • Poor in ring topologies
  • Difficult to ensure particular customers get
    good service
  • Even when so engineered, a single failure may
    break it for subsequent failures

10
Not-via characteristics
  • 100 coverage in all cases
  • Intuitive repair paths
  • Next best path
  • Close to path used after re-convergence
  • Requires tunnels
  • But combining with LFAs reduces the volume of
    tunnelled traffic in most topologies
  • Only required at protecting nodes, not all nodes
    on repair path
  • Computational complexity about an order of
    magnitude worse than normal SPF
  • Not-via typically lt 100mS compute
  • Slightly longer for complex SRLGs
  • Requires an extra (private) address per interface
  • Can assign a group to a router and allow
    automatic allocation.

11
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