Dynamics of Hot-Potato Routing in IP Networks
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1 Dynamics of Hot-Potato Routing in IP Networks Jennifer Rexford AT&T Labs Research Joint work with Renata Teixeira (UCSD), Aman Shaikh (AT&T), and Timothy Griffin (Intel)
2 Outline Internet routing Interdomain and intradomain routing Coupling due to hot-potato routing Measuring hot-potato routing Measuring the two routing protocols Correlating the two data streams Performance evaluation Characterization on AT&T s network Implications on operational practices Conclusions and future directions 2
3 Autonomous Systems Multiple links Middle of path Client AS path: 6, 5, 4, 3, 2, 1 Web server 3
4 Interdomain Routing (BGP) Border Gateway Protocol (BGP) IP prefix: block of destination IP addresses AS path: sequence of ASes along the path Policy configuration by the operator Path selection: which of the paths to use? Path export: which neighbors to tell? I can reach /24 I can reach /24 via AS
5 Intradomain Routing (IGP) Interior Gateway Protocol (OSPF and IS-IS) Shortest path routing based on link weights Routers flood link-state information to each other Routers compute next hop to reach other routers Link weights configured by the operator Simple heuristics: link capacity or physical distance Traffic engineering: tuning link weights to the traffic Path cost:
6 Two-Level Internet Routing inter-domain routing (BGP) AS 1 AS 2 AS 3 intra-domain routing (IGP) Autonomous system (AS) = network with unified administrative routing policy (ex. AT&T, Sprint, UCSD) Hierarchical routing Intra-domain Metric based Inter-domain Reachability and policy Design principles Scalability Isolation Simplicity of reasoning 6
7 Coupling: Hot-Potato Routing dst X 10 ISP network Hot-potato routing = ISPs policy of routing to closest exit point when there is more than one Traffic route to shift destination Y 911 Z Routes packet to dst thousands of destinations switch exit point!!! failure planned maintenance traffic engineering Consequences: Routers CPU overload Transient forwarding instability Inter-domain routing changes 7
8 BGP Decision Process Equally good Ignore if exit point unreachable Highest local preference Lowest AS path length Lowest origin type Lowest MED (with same next hop AS) Lowest IGP cost to next hop Lowest router ID of BGP speaker 8
9 Hot-Potato Routing Model X 10 8 Z dst W Y 99 Cost vector for Z: c X =10, c W =8, and c Y =9 Egress set for dst: {X, Y} Best route for Z: through Y, which is closest Hot-potato change: change in cost vector causes change in best route 9
10 The Big Picture Cost vector changes Interdomain changes Hot-potato routing changes (interdomain changes caused by intradomain changes) 10
11 Why Care about Hot Potatoes? Understanding of Internet routing Frequency of hot-potato routing changes Influence on end-to-end performance Operational practices Knowing when hot-potato changes happen Avoiding unnecessary hot-potato changes Analyzing externally-caused BGP updates Distributed root cause analysis Each AS can tell what BGP updates it caused Someone should know why each change happened 11
12 Our Approach Measure both protocols BGP and OSPF monitors X AT&T backbone Z OSPF messages BGP updates M Correlate the two streams Match BGP updates with OSPF events Analyze the interaction Y 12
13 Heuristic for Matching Stream of OSPF messages Transform stream of OSPF messages into routing changes refresh link failure chg cost weight change chg cost del Match BGP updates with OSPF events that happen close in time time Classify BGP updates by possible OSPF causes Stream of BGP updates 13
14 Computing Cost Vectors Transform OSPF messages into path cost changes from a router s perspective OSPF routing changes: X Z X 5 CHG Y, 7 Y 4 7 DEL X ADD X, 5 M LSA weight delete change, 10 Y 14
15 Classifying BGP Updates Cannot have been caused by cost change Destination just became (un)available in BGP New BGP route through same egress point New route better/worse than old (e.g., AS path len) Can have been caused by cost change New route is equally good as old route (perhaps X got closer, or Y got further away) X M Z dst Y 15
16 The Role of Time IGP link-state advertisements Multiple LSAs from a single physical event Group into single cost vector change BGP update messages Multiple BGP updates during convergence Group into single BGP routing change Matching IGP to BGP 70 sec 180 sec 10 sec Avoid matching unrelated IGP and BGP changes Match related changes that are close in time Characterize the measurement data to determine the right windows 16
17 Summary Results (June 2003) High variability in % of BGP updates location min max days > 10% close to peers 0% 3.76% 0 between peers 0% 25.87% 5 One LSA can have a big impact location no impact prefixes impacted close to peers 97.53% less than 1% between peers 97.17% 55% 17
18 Delay for BGP Routing Change Router vendor scan timer BGP table scan every 60 seconds OSPF changes arrive uniformly in interval Internal BGP hierarchy (route reflectors) Wait for another router to change best route Introduces a wait for a second BGP scan Transmitting many BGP messages Latency for transferring the data We have seen delays of up to 180 seconds! 18
19 Delay for First BGP Change Two BGP scans Fraction of Hot-Potato Changes Cisco BGP scan timer Routers in backbone (June) Routers in backbone (September) Router in lab time BGP update time LSA (seconds) 19
20 Transferring Multiple Prefixes Cumulative Number of Hot-Potato Changes 81 seconds delay time BGP update time LSA (seconds) 20
21 BGP Updates Over Prefixes Contrast with non-ospf triggered BGP updates prefixes with only one exit point Cumulative %BGP updates OSPF-triggered BGP updates affects ~50% of prefixes uniformly Non-OSPF triggered All OSPF-triggered % prefixes 21
22 Operational Implications Forwarding plane convergence Accuracy of active measurements Router proximity to exit points Likelihood of hot-potato routing changes Cost in/out of links during maintenance Avoid triggering BGP routing changes 22
23 Forwarding Convergence R 1 s scan process Packets to dst may can take up to Scan be caught process in a loop 60 seconds to Rrun 2 starts runs using for 60 Rseconds! 12 to reach dst R 10 1 R dst 23
24 Measurement Accuracy Measurements of customer experience Probe machines have just one exit point! loop to reach dst R 10 1 R 2 W W 2 dst 24
25 Avoid Equal-distance Exits Z Z X 10 X Y Y dst dst Small changes will make Z switch exit points to dst More robust to intra-domain routing changes 25
26 Careful Cost in/out Links X Z 10 dst Y Traffic is more predictable Faster convergence Less impact on neighbors 26
27 Ongoing Work Black-box testing of the routers Scan timer and its effects (forwarding loops) Vendor interactions (with Cisco) Impact of the IGP-triggered BGP updates Changes in the flow of traffic Forwarding loops during convergence Externally visible BGP routing changes Improving isolation (cooling those potatoes!) Operational practices: preventing interactions Protocol design: weaken the IGP/BGP coupling Network design: internal topology/architecture 27
28 Thanks! Any questions? 28
29 ibgp Route Reflectors Y X 11 8 Announcement X dst X,19 Y, dst W, 20 Z dst W Scalability trade-off: Less BGP state vs. Number of BGP updates from Z and longer convergence delay 29
30 Exporting Routing Instability Announcement Z X dst Y No change => no announcement Z dst X Y 30
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