ecs298k: Routing in General... lecture #2
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Transcript of ecs298k: Routing in General... lecture #2
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04/05/2001 1
ecs298k:Routing in General...lecture #2
Dr. S. Felix Wu
Computer Science Department
University of California, Davishttp://www.cs.ucdavis.edu/~wu/
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2 04/05/2001
Routing Protocol Framework Information Model
FIB
RIB
NPDU Header (Network Protocol Data Unit)
(Dest, NextHop, Routing Metrics)
Forwarding Algorithm
OSPF
RIBRIB
RIPv2 BGP4
FIB
ForwardingDecision
Application Layer
Network Layer
RoutingInformationBase
ForwardingInformationBase
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04/05/2001 3
Operation Model - Routing Information Exchange
Hey, Here is the routing information I got so far
Hmm, some of them are obsolete, Here is my update
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04/05/2001 4
Operation Model - Route Generation and Selection
Which algorithm should I use??Distributed Dijikstra’s algorithm or
Distributed Bellman-Ford algorithm?
Routing Information Base
Forwarding Information Base
application Layer
network Layer
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04/05/2001 5
Routing Protocol Framework Topology Model
Administrative Domain 1 Administrative Domain 2
ASBR
ASBRASBR
AIR
Routing Domain Domain
HostAIRHost
AIRAIR
Host
Host
Routing Domain Domain
AIR
Two Level Routing - Intra-domain and Inter-domain Multiple routing domains can form an administrative domain ASBR and It’s restriction Routing protocol examples ( RIP, RIPv2, IGRP, OSPF, EGP, BGP, IS-IS)
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FIB• Forwarding Information Base
• Longest Matching Rule– CIDR (Classless Inter-domain Routing)
• IP address + Net Mask Length• 128.32.12/24 versus 128.32.12/22
– 10000000.00100000.00001100.--------– 11111111.11111111.11111111.00000000– 11111111.11111111.11111100.00000000
– Aggregation:• 128.32.12.0/24, 128.32.13.0/24 => 128.32.12.0/23• 128.32.12.0/23, 128.32.14.0/23 => 128.32.12.0/22
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04/05/2001 7
IP Routing
• Routing targets network addresses– Clouds - IP network address.
• Routers use forwarding table– destination/mask, next hop, network interface, metric– table look-up for each packet– need to recognize address structure
• Routing information updates the forwarding table after the route computation.
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04/05/2001 8
Routing
I want to knowthe shortest pathor simply “a path”
Routers exchange local information!
SRC
DST
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04/05/2001 9
Link State
A
B
C
You
YourNeighbor
A B
A B
A B
Flooding
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Link State
A
B
C
You
YourNeighbor
A B
A B
A B
Flooding
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04/05/2001 12
Distance Vector
A
B
C
You
YourNeighbor
A: 3 hopsB: 2 hopsC: 2 hops
Your Neoghbor will decide who should be the next hop!
A: 1 hopB: 2 hops
VIEW
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04/05/2001 13
Routing Information
• Link State:– I let the whole world knows about my
relationship with my neighbors.– (Felix, Neighbor-X) is up!
• Distance Vector:– I let all my neighbors knows about my
relationship with the rest of the world.– (Felix can get to Remote-Y) in 5 hops.
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04/05/2001 14
RIP• Routing Information Protocol is a simple
distance vector protocol.
• Initialization:– When the routing daemon is initialized, it send
a request command to each network interface (card).
– Neighboring routers will reply with routing table information.
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04/05/2001 15
RIP, cont.
• Periodic Updates– routers advertise tables with neighbors
periodically (~30 seconds) + upon interface changes.
• Split-Horizon– Router records the interface providing a route
and does not propagate it back.
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04/05/2001 16
Bad News Propagation: 1
A: 0 A: 1 A: 2 A: 3 A: 4 A: 51 1 1 1 1
20
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04/05/2001 17
Bad News Propagation: 2
A: 0 A: 3 A: 2 A: 3 A: 4 A: 51 1 1 1
20
8
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04/05/2001 18
Black Hole
A
B
C
You
YourNeighbor
A: 3 hopsB: 2 hopsC: 2 hops
A: 1 hopB: 2 hops
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04/05/2001 19
Black Hole Attack
R1
Destination N, NextHop R1, Metric 1
R2
R3
Rn
control flowdata flow
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04/05/2001 20
BGP4• In between Link-State and Distance-Vector
– tell my neighbors about my connection to the rest of the world
– but, also tell them how I reach there:• routing path information.
– What can or can’t I do with the extra path information?
• Can I still attack?• How can I prevent or detect?
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Route Path (among AS’s)
A
B
C
A-B-E-F
E
F
A-C
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04/05/2001 22
BGP Messages
• OPEN
• NOTIFICATION
• UPDATE (NEW and WITHDRAW)
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04/05/2001 23
Internet BGP Update VolumeAnn and With at Mae-East
0
200,000
400,000
600,000
800,000
1,000,000
1,200,000
1,400,000
1,600,000
1,800,000
2,000,0004/17/1997
6/17/1997
8/17/1997
10/17/1997
12/17/1997
2/17/1998
4/17/1998
6/17/1998
8/17/1998
10/17/1998
12/17/1998
2/17/1999
4/17/1999
6/17/1999
8/17/1999
10/17/1999
12/17/1999
2/17/2000
Announcements
Withdraws
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Race Conditions and Paths
• T(shortest path) <= Tdown <= T(longest path)
B
A
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BGP Convergence ExampleR
AS0 AS1
AS2AS3
*B R via 3 B R via 03 B R via 23
*B R via 3 B R via 03 B R via 13
*B R via 3 B R via 13 B R via 23
AS0 AS1 AS2
** **B R via 203
*B R via 013 B R via 103
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04/05/2001 26
ISP3-ISP4 Paths During Failure
ISP 3
Ste
ady
St a
t e
ISP 4
R3
P2
P2
ISP 5
FAULT
ISP 1
P3
P3
P6
P7
P7P4
P4
P5
P5
P5P5
P5
P6
P6
P6
ISP 7
ISP 9
ISP 8
P7
P7
P4
36% Average: 110 (min/max 78/135) seconds
Announce AS4 AS5 AS (52 seconds)
Withdraw (110 seconds)
35% Average: 107 (min/max 91/133) seconds
Announce AS4 AS1 AS3 (39 seconds)
Announce AS4 AS5 AS3 (68 seconds)
Withdraw (107 seconds)
2% Average:140.00 (min/max 120/142)
Announce AS4 AS5 AS8 AS7 AS3 (27) Announce AS4 AS5AS9 AS8 AS7 AS3 (86)
Withdraw (140 seconds)
27% Other
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ISP2-ISP4 Paths During Failure
Ste
ady
Sta
te
ISP 2
ISP 4
P2
P2
ISP 5
P3
P3
P3
ISP 6
R2
FAULT
Vagabond
P4
P4ISP 10
ISP 11
ISP 12
ISP 13
P4
P4
P4
63% Average: 79 (min/max 44/208) seconds
AS4 AS5 AS2 (35 seconds)
Withdraw (79 seconds)
7% Average: 88 (min/max 80/94) seconds
Announce AS4 AS5 AS2 (33 seconds)
Announce AS4 AS6 AS5 AS2 (61 seconds)
Withdraw (88 seconds)
7% Average: 54 (min/max 29/9) seconds
Withdraw (54 seconds)
23% Other
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ISP1-ISP4 Paths During Failure
• Only one back up path (length 3)
Steady State
ISP 1
ISP 5
P2
P2ISP 4
R1
FAULT
96% Average: 92 (min/max 63/140) seconds
Announce AS4 AS5 AS1 (44 seconds)
Withdraw (92 seconds)
4% Average: 32 (min/max 27/38) seconds
Withdraw (32 seconds)