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Transcript of BGP EE 122, Fall 2013 Sylvia Ratnasamy ee122/ Material thanks to Ion Stoica, Scott Shenker, Jennifer...
![Page 1: BGP EE 122, Fall 2013 Sylvia Ratnasamy ee122/ Material thanks to Ion Stoica, Scott Shenker, Jennifer Rexford, and many other.](https://reader031.fdocuments.us/reader031/viewer/2022032723/56649cff5503460f949d0617/html5/thumbnails/1.jpg)
BGP
EE 122, Fall 2013
Sylvia Ratnasamy
http://inst.eecs.berkeley.edu/~ee122/
Material thanks to Ion Stoica, Scott Shenker, Jennifer Rexford, and many other colleagues
![Page 2: BGP EE 122, Fall 2013 Sylvia Ratnasamy ee122/ Material thanks to Ion Stoica, Scott Shenker, Jennifer Rexford, and many other.](https://reader031.fdocuments.us/reader031/viewer/2022032723/56649cff5503460f949d0617/html5/thumbnails/2.jpg)
BGP: The story so far
Destinations are IP prefixes (12.0.0.0/8) Nodes are Autonomous Systems (ASes) Links represent both physical connections and
business relationships customer-provider or peer-to-peer
BGP path-vector protocol policy-driven route selection
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BGP: Today
BGP policy typical policies, how they’re implemented
BGP protocol details
Issues with BGP
![Page 4: BGP EE 122, Fall 2013 Sylvia Ratnasamy ee122/ Material thanks to Ion Stoica, Scott Shenker, Jennifer Rexford, and many other.](https://reader031.fdocuments.us/reader031/viewer/2022032723/56649cff5503460f949d0617/html5/thumbnails/4.jpg)
Policy imposed in how routes are selected and exported
Selection: Which path to use? controls whether/how traffic leaves the network
Export: Which path to advertise? controls whether/how traffic enters the network
Can reach 128.3/16blah blah
Route selection
Customer
Competitor
1
5
10
Route export
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Typical Selection Policy
In decreasing order of priority make/save money (send to customer > peer > provider) maximize performance (smallest AS path length) minimize use of my network bandwidth (“hot potato”) … …
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Typical Export Policy
Destination prefix advertised by… Export route to…
CustomerEveryone
(providers, peers, other customers)
Peer Customers
Provider Customers
We’ll refer to these as the “Gao-Rexford” rules(capture common -- but not required! -- practice!)
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Gao-Rexford
peers
providers
customers
With Gao-Rexford, the customer-provider graph is a DAG (directed acyclic graph) and routes are “valley free”
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BGP: Today
BGP policy typical policies, how they’re implemented
BGP protocol details stay awake as long as you can…
BGP issues
![Page 9: BGP EE 122, Fall 2013 Sylvia Ratnasamy ee122/ Material thanks to Ion Stoica, Scott Shenker, Jennifer Rexford, and many other.](https://reader031.fdocuments.us/reader031/viewer/2022032723/56649cff5503460f949d0617/html5/thumbnails/9.jpg)
Who speaks BGP?
Border routerInternal router
Border routers at an Autonomous System
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What does “speak BGP” mean?
Implement the standardized BGP protocol read more here: http://tools.ietf.org/html/rfc4271
Specifies what messages to exchange with other BGP “speakers” message types: e.g., route advertisements message syntax: e.g., first X bytes for dest prefix; next Y for AS path, etc.
And how to process these messages e.g., “when you receive a message of type X, apply this selection rule, then…” as per BGP state machine in the protocol spec + policy decisions, etc.
![Page 11: BGP EE 122, Fall 2013 Sylvia Ratnasamy ee122/ Material thanks to Ion Stoica, Scott Shenker, Jennifer Rexford, and many other.](https://reader031.fdocuments.us/reader031/viewer/2022032723/56649cff5503460f949d0617/html5/thumbnails/11.jpg)
BGP “sessions”
A border router speaks BGP with border routers in other ASes
“eBGP session”
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BGP “sessions”
A border router speaks BGP with other (interior and border) routers in its own AS
“iBGP session”
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eBGP, iBGP, IGP
eBGP: BGP sessions between border routers in different ASes Learn routes to external destinations
iBGP: BGP sessions between border routers and otherrouters within the same AS distribute externally learned routes internally assume a full all-to-all mesh of iBGP sessions
IGP: “Interior Gateway Protocol” = Intradomain routing protocol provide internal reachability e.g., OSPF, RIP
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Some Border Routers Don’t Need BGP
Customer that connects to a single upstream ISP The ISP can advertise prefixes into BGP on behalf of customer … and the customer can simply default-route to the ISP
Provider
Customer
Install default routes 0.0.0.0/0 pointing to Provider
Install routes 130.132.0.0/16 pointing to Customer
130.132.0.0/16
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Putting the pieces together
1. Provide internal reachability (IGP)2. Learn routes to external destinations (eBGP)3. Distribute externally learned routes internally (iBGP)4. Travel shortest path to egress (IGP)
62
4 9 2
13
3
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Basic Messages in BGP
Open Establishes BGP session BGP uses TCP [will make sense in 1-2weeks]
Notification Report unusual conditions
Update Inform neighbor of new routes Inform neighbor of old routes that become inactive
Keepalive Inform neighbor that connection is still viable
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BGP Operations
Open session on TCP port 179
Exchange all active routes
Exchange incremental Updates
AS1
AS2
While connection is ALIVE exchangeroute UPDATE messages
BGP session
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Route Updates
Format <IP prefix: route attributes> attributes describe properties of the route
Two kinds of updates announcements: new routes or changes to existing routes withdrawal: remove routes that no longer exist
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Route Attributes
Routes are described using attributes Used in route selection/export decisions
Some attributes are local i.e., private within an AS, not included in announcements e.g., LOCAL PREF, ORIGIN
Some attributes are propagated with eBGP route announcements e.g., NEXT HOP, AS PATH, MED, etc.
There are many standardized attributes in BGP We will discuss a few
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Attributes (1): ASPATH Carried in route announcements Vector that lists all the ASes a route
announcement has traversed (in reverse order) e.g., “7018 88”
AS 7018AT&T
AS 12654
128.112.0.0/16AS path = 7018 88
AS 88Princeton, 128.112/16
IP prefix = 128.112.0.0/16AS path = 88
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Attributes (2): NEXT HOP Carried in a route update message IP address of next hop router on path to destination Updated as the announcement leaves AS
AS 88Princeton, 128.112/16
IP prefix = 128.112.0.0/16AS path = 88Next Hop = 192.0.2.1
AS 7018
AT&T
AS 12654
192.0.2.1
128.112.0.0/16AS path = 7018 88Next Hop = 12.127.0.121
12.127.0.121
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Attributes (3): LOCAL PREF
“Local Preference” Used to choose between different AS paths The higher the value the more preferred Local to an AS; carried only in iBGP messages Ensures consistent route selection across an AS
AS4
AS2 AS3
AS1
140.20.1.0/24
BGP table at AS4:
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Example: iBGP and LOCAL PREF
Both routers prefer the path through AS 100 on the left
I-BGP
AS 4
AS 3
Local Pref = 100 Local Pref = 90
AS 2
AS1
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Attributes (4): ORIGIN
Records who originated the announcement Local to an AS Options:
“e” : from eBGP “i” : from iBGP “?” : Incomplete; often used for static routes
Typically: e > i > ?
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Attributes (5) : MED
“Multi-Exit Discriminator”
Used when ASes are interconnected via 2 or more links to specify how close a prefix is to the link it is announced on
Lower is better
AS announcing prefix sets MED (AS2 in picture)
AS receiving prefix (optionally!) uses MED to select link (AS1 in pic.)
Link BLink A
MED=10MED=50
AS1
AS2
AS3
destination prefix
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Attributes (6): IGP cost
Used for hot-potato routing Each router selects the closest egress point based on
the path cost in intra-domain protocol
hot potato
AB
C
D
GEF
45
3
9
34
108
8
A B
dst
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IGP may conflict with MED
Dsf
A
BNEXTHOP=SFMED=100
NEXTHOP=BOS
MED=500
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Using Attributes
Rules for route selection in priority order
Priority Rule Remarks
1 LOCAL PREF Pick highest LOCAL PREF
2 ASPATH Pick shortest ASPATH length
3 MED Lowest MED preferred
4 eBGP > iBGP Did AS learn route via eBGP (preferred) or iBGP?
5 iBGP path Lowest IGP cost to next hop (egress router)
6 Router ID Smallest router ID (IP address) as tie-breaker
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BGP UPDATE Processing
Best Route Selection
Apply Import Policies
Best Route Table
Apply Export Policies
Install forwardingEntries for bestRoutes.
ReceiveBGPUpdates
BestRoutes
TransmitBGP Updates
Filter routes & tweak attributes
Based onAttributeValues
IP Forwarding Table
Apply Policy =filter routes & tweak attributes
Open ended programming.Constrained only by vendor configuration language
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BGP: Today
BGP policy typical policies, how they’re implemented
BGP protocol details
BGP issues
![Page 31: BGP EE 122, Fall 2013 Sylvia Ratnasamy ee122/ Material thanks to Ion Stoica, Scott Shenker, Jennifer Rexford, and many other.](https://reader031.fdocuments.us/reader031/viewer/2022032723/56649cff5503460f949d0617/html5/thumbnails/31.jpg)
Issues with BGP
Reachability
Security
Convergence
Performance
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Reachability
In normal routing, if graph is connected then reachability is assured
With policy routing, this does not always hold
AS 2
AS 3AS 1Provider Provider
Customer
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Security
An AS can claim to serve a prefix that they actually don’t have a route to (blackholing traffic) Problem not specific to policy or path vector Important because of AS autonomy Fixable: make ASes “prove” they have a path
Note: AS can also have incentive to forward packets along a route different from what is advertised Tell customers about fictitious short path… Much harder to fix!
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Convergence
Result: If all AS policies follow “Gao-Rexford” rules, BGP is guaranteed to converge (safety)
For arbitrary policies, BGP may fail to converge!
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Example of Policy Oscillation
1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
“1” prefers “1 3 0” over “1 0” to reach “0”
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Step-by-Step of Policy Oscillation
Initially: nodes 1, 2, 3 know only shortest path to 0
1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
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1 advertises its path 1 0 to 2
1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0adve
rtis
e: 1
0
Step-by-Step of Policy Oscillation
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1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
Step-by-Step of Policy Oscillation
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40
1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
advertise: 3 0
3 advertises its path 3 0 to 1
Step-by-Step of Policy Oscillation
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1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
Step-by-Step of Policy Oscillation
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1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0with
draw
: 1 0
1 withdraws its path 1 0 from 2
Step-by-Step of Policy Oscillation
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1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
Step-by-Step of Policy Oscillation
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1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
advertise: 2 0
2 advertises its path 2 0 to 3
Step-by-Step of Policy Oscillation
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45
1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
Step-by-Step of Policy Oscillation
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1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
withdraw: 3 0
3 withdraws its path 3 0 from 1
Step-by-Step of Policy Oscillation
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47
1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
Step-by-Step of Policy Oscillation
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48
1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
1 advertises its path 1 0 to 2
Step-by-Step of Policy Oscillation
adve
rtis
e: 1
0
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1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
Step-by-Step of Policy Oscillation
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1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
withdraw: 2 0
2 withdraws its path 2 0 from 3
Step-by-Step of Policy Oscillation
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1
2 3
1 3 0 1 0
3 2 0 3 0
2 1 0 2 0
0
We are back to where we started!
Step-by-Step of Policy Oscillation
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Convergence
Result: If all AS policies follow “Gao-Rexford” rules, BGP is guaranteed to converge (safety)
For arbitrary policies, BGP may fail to converge!
Should this trouble us?
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Performance Nonissues
Internal routing (non) Domains typically use “hot potato” routing Not always optimal, but economically expedient
Policy not about performance (non) So policy-chosen paths aren’t shortest
Choosing among policy-compliant paths (non) Fewest AS hops has little to do with actual delay 20% of paths inflated by at least 5 router hops
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Performance (example) AS path length can be misleading
An AS may have many router-level hops
AS 4
AS 3
AS 2
AS 1
BGP says that path 4 1 is better than path 3 2 1
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Real Performance Issue: Slow convergence
BGP outages are biggest source of Internet problems
Labovitz et al. SIGCOMM’97 10% of routes available less than 95% of time Less than 35% of routes available 99.99% of the time
Labovitz et al. SIGCOMM 2000 40% of path outages take 30+ minutes to repair
But most popular paths are very stable
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BGP Misconfigurations
BGP protocol is both bloated and underspecified lots of leeway in how to set and interpret attribute values,
route selection rules, etc. necessary to allow autonomy, diverse policies but also gives operators plenty of rope
Much of this configuration is manual and ad hoc
And the core abstraction is fundamentally flawed per-router configuration to effect AS-wide policy now strong industry interest in changing this! [later: SDN]
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BGP: How did we get here?
BGP was designed for a different time before commercial ISPs and their needs before address aggregation before multi-homing
We don’t get a second chance: `clean slate’ designs virtually impossible to deploy
Thought experiment: how would you design a policy-driven interdomain routing solution? How would you deploy it?
• 1989 : BGP-1 [RFC 1105]– Replacement for EGP (1984, RFC 904)
• 1990 : BGP-2 [RFC 1163]
• 1991 : BGP-3 [RFC 1267]
• 1995 : BGP-4 [RFC 1771] – Support for Classless Interdomain Routing (CIDR)
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Next Time.
Wrap up the network layer! the IPv4 header IP routers