Routing - cpe.ku.ac.thanan/myhomepage/wp... · 3 IP Addresses Revisited Potential exhaustion of...
Transcript of Routing - cpe.ku.ac.thanan/myhomepage/wp... · 3 IP Addresses Revisited Potential exhaustion of...
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Routing
รศ.ดร. อนันต์ ผลเพิ่ม
Asso. Prof. Anan Phonphoem, [email protected]
http://www.cpe.ku.ac.th/~anan
Computer Engineering Department
Kasetsart University, Bangkok, Thailand
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Outline
Classless Interdomain Routing
Autonomous System
Routing Introduction
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IP Addresses Revisited
Potential exhaustion of IPv4 address space (due to inefficiency)
Class B is too big
Class C is too small (many are available)
Growth of back bone routing tables
Lots of small networks causes large routing tables
Route calculation and management requires high computational overhead
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Classless Interdomain Routing (CIDR)
Try to balance these two competing effects
Address utilisation
Router complexity
CIDR allows routers to break the rigid interpretation of IP address structures
Also called Supernetting
(Opposite of Subnetting)
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Classful & Classless addressing
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16K networks x 64K hosts
128 networks x 16M hostsA
B
2M networks x 256 hostsC
Obsolete• inefficient• depletion of B space• too many routes from C space
Classful Classless
Best CurrentPractice
Hosts Prefix Classful
... ... ...
8 /29
16 /28
32 /27
64 /26
128 /25
256 /24 1 C... ... ...
4096 /20 16 C8192 /19 32 C
16384
32768
65536
/18
/17
/16
64 C
128 C
1 B... ... ...
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Prefix Length
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CIDR Example
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What is the first address in the block if one of theaddresses is 167.199.170.82/27?
Address in binary: 10100111 11000111 10101010 01010010
Keep the left 27 bits: 10100111 11000111 10101010 01000000
Solution
Result in CIDR notation: 167.199.170.64/27
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Supernetting: CIDR
Enable network no. to be any length (No Class)
Collapse multiple addresses assigned to a single AS to one address
All routers must understand CIDR addressing
Need both Address and Mask (prefix and suffix)
Slash notation (123.10.16.0 /20)
Some prefixes are reserved for private add.
10/8, 172.16/12, 192.168/16, 169.254/16
These are not routable in the Internet8
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Example of CIDR
Consider an ISP providing IP connection to a number of private companies
If the IP addresses for the companies are carefully selected
a border router need only advertise one “aggregated” route for all the companies
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ISP
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Example of CIDR (Supernetting)
If ISP needs 16 class C addresses, make them contiguous
Eg.199.23.16 to 199.23.31 enables a 20-bit network number
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199.23.0001 0000.0 199.23.16.0199.23.0001 0001.0 199.23.17.0199.23.0001 0010.0 199.23.18.0199.23.0001 0011.0 199.23.19.0…199.23.0001 1111.0 199.23.31.0
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Example of CIDR
…
199.23.16.0
199.23.17.0
199.23.31.0
Without CIDR199.23.16.0199.23.17.0
…199.23.31.0
Boarder GatewayWith CIDR
199.23.16.0/20
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Aggregation
Some pairs of consecutive prefixes
Example: routes within the same AS:
AS has 2 address blocks:
1.2.2.0/24 = 0000001.00000010.00000010.00000000/241.2.3.0/24 = 0000001.00000010.00000011.00000000/24
Can announce 1.2.2.0/23
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CIDR: Longest prefix match
Because prefixes of arbitrary length allowed, overlapping prefixes can exist.
Example: router hears 124.39.0.0/16 from one neighborand 124.39.11.0/24 from another neighbor
Router forwards packet according to most specific forwarding information, called longest prefix match
Packet with destination 124.39.11.32 will be forwarded using /24 entry.
Packet with destination 124.39.22.45 will be forwarded using /16 entry
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CIDR: Longest prefix match
Implicit ordering in the routing table
longer prefixes higher up the table
So, the first match is the right one
Explicit route to directly attached host
a netmask of 0.0.0.0
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VLSM
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Variable-length subnet mask
Classful allows only one subnet in a network
> one subnet in an autonomous system
Maximizing the use of address (Subnet Zero)
“Subnetting a Subnet”
Routing that support VLSM
OSPF, Integrated IS-IS, EIGRP, RIPv2, and static routing
VLSM
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192.168.10.0/24
Subnet with VLSM
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7 subnets; The largest subnet needs 60 hosts If 3 bits for subnet (8 subnets) 5 bits for host (32 hosts)If 6 bits for host (64 hosts) 2 bits for subnet (4 subnets)
192.168.10.0/24
Regular Subnet
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Select the biggest first
192.168.10.0/24Perth
KL
Subnet with VLSM
192.168.10.64/26 192.168.10.64/27
192.168.10.96/27
192.168.10.0/26
192.168.10.64/26
192.168.10.128/26
192.168.10.192/26
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192.168.10.96/27 192.168.10.96/28
192.168.10.112/28
192.168.10.128/26 192.168.10.128/30
192.168.10.132/30
192.168.10.136/30
192.168.10.140/30
...
Sydney
Singapore
Perth – KL
Sydney – KL
Singapore – KL
Subnet with VLSM
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Final: Subnet with VLSM
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CPE IE EE
165.23.208.0/20
700 Stations 500 Stations 100 Stations
250 Stations
Assignment
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•165.23.208.0/20•165.23.208.0/22•165.23.212.0/22•165.23.216.0/22•165.23.220.0/22
•165.23.212.0/22•165.23.212.0/23•165.23.214.0/23
•165.23.214.0/23•165.23.214.0/24•165.23.215.0/24
•165.23.215.0/24•165.23.215.0/25•165.23.215.128/25
•165.23.215.128/25•165.23.215.128/30•165.23.215.132/30•165.23.215.136/30•…
1022 Hosts
510 Hosts
254 Hosts
126 Hosts
2 Hosts
The largest subnet needs 700 hosts10 bits for host (1024 hosts)
CPE IE EE
700 Stations 500 Stations 100 Stations
250 Stations
Solution
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CPE IE EE
165.23.208.0/20
700 Stations 500 Stations 100 Stations
250 Stations
165.23.208.0/22
165.23.214.0/24
165.23.215.128/30 165.23.215.132/30
165.23.212.0/23 165.23.215.0/25
Final Solution
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Notes for CIDR
CIDR was actually intended as a quick fix to solve the addressing crisis until IPv6 was finalized and deployed.
Unfortunately, CIDR has been widely adopted – and IPv6 deployment has proven to be very, very slow.
CIDR “is here and now” – but IPv6 is not compatible with IPv4 which generates a big migration problem.
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Growth in Routing Table Size
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Pre-CIDR (1988-1994): Steep Growth Rate
“Jennifer Rexford”, Internet Routing (COS 598A)
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Growth in Routing Table Size
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CIDR Deployment (1994-1996): Much Flatter
“Jennifer Rexford”, Internet Routing (COS 598A)
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Autonomous System (AS)
A single network domain
Grouping of computers/routers
Operate in isolation from other groups
A single network administrative entity
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Autonomous System (AS)
Need protocols for distribute routing information in the AS
Interior Gateway Protocols (IGPs)
intradomain routing algorithms
Between AS
Need interdomain routing algorithms
Exterior Gateway Protocols (EGPs)
more complex task
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Autonomous System (AS)
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AS 1
AS 20
AS 5
AS 7
Autonomous System Boarder router (ASBR)
Exterior Gateway Protocol(EGP Link)
Interior Gateway Protocol(IGP Link)
This is the Internet !
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Types of AS
Stub AS Only has a single connection to one other AS
only carries local traffic
Multihomed AS Connect to more than one other AS
But will not carry transit traffic
Transit AS Connect to more than one other AS
Can carry both local and transit traffic
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Transit vs. Nontransit AS
Transit traffic = traffic whose source and destination are outside the AS
AS1
ISP1 ISP2
r1
r2 r2r3
r2
r1 r3
Nontransit AS: does not carry transit traffic
• Advertise own routes only• Do not propagate routes learned from other AS’s
AS1
ISP1 ISP2
r1
r2,r3 r2,r1r3
r2
r1 r3
Transit AS: does carry transit traffic
• Advertises its own routes PLUS routeslearned from other AS’s
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Routing
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Routing ?
Spelling/pronounce
British: routeing
American: routing
Definition (Goal)
“Learning how to get from here to there."
“Process of discovering, selecting, and employing paths from one place to another (or to many others) in a network” [from David M.
Piscitello, Bellcore and A. Lyman Chapin, BBN]
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Routing Process
Finding how to get there
Actually getting to there
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Routing Methods
Source Routing Source keep all information (how to get there)
Insert the information in the packet
Intermediate node just read and act
Hop-by-Hop Routing Source only knows how to get to the next hop
Assume that Intermediate node knows how to get to the next hop
... until destination reach
Example: Driving a car
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Routing Principle
Goal: Arriving at the destination
Considerations:
Direct route (shortest)
Reliable route
Scenic route (of course, not for network!)
Cheap route
Safe route
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Routing Objectives
Maximizing the network performances
Delay
Throughput
Minimizing the cost
Equipment
Computation power / complexity
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Routing Constraints
Network (Switching) Technology
Dynamics of the networks
Traffic
Network service available
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Routing Requirements
Scalability
Multi technology support
Topology-change adaptability (fast & minimum cost)
QoS support
Secure/Private connection
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Ideal Routing Algorithm
Correct
Robust
Stable (Convergence)
Efficient
Flexible (Topology change)
Scalable
Loop-Free (no deadlock)
Easy (Maintainable)
Secure
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Classic Routing Problem
St#1
St#2 St#3
St#4
Path to St#4To St#4Via St#3
To St#4Via St#1
To St#4Via St#2
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Routing Elements
Routing protocol Allow End/Intermediate nodes to collect and
distribute the information necessary to determine routes
Routing database (table) Like a directory information base
Routing algorithm Uses the information contained in the routing
database to derive routes
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Routing Information
Which interface should I forward this packet ?
Which is the next hop ?
I will consult the Routing Table
(look-up algorithm)
Packet for 158.108.2.3
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Routing table
The ordered list
Add. matches several entries in the list >1 possible path
and may be different qualities
Router looks up network number of destination address and sends it
Next router will do the same, until it arrives at the right network
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Where does the Routing Table come from?
By talking with other routers
Routing table is built by exchanging info with other routers
The goal of this exchange is to “map out” the network
Each router wants to know who it can talk to directly
and who those routers can talk to
Finally Send packet to the directly connect host
Or asking other routers to act as “middle men” and deliver packets for it
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Routing table
Associated with each route A cost of the link
Cost could be level of congestion
inverse of the bandwidth
monetary cost
In practice, this is often just a hop countor infinity.
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Routers
Small RoutersStacked
For Branch Offices
19 inches (48 cm) wide
Large Routersfor Large Sites and ISPs
19 inches (48 cm) wide
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Router
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Router
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The Internals of a Router
Routing Information Base (RIB)
Routing Decision Engine
Route Import Policies
Route Export Policies
Configuration
Static Route Config.
Discovery
Discovery of directly attached
hostes
IGP IGP
IGP networks
EGP EGP
EGP peer routers
Forwarding Information Base (FIB)
Determine packet forwadingIGP IGP EGP EGP
IGP networks EGP peer routers
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References
“Gregory Kesden” lecture of 20-770 Communications and Networking
“Nina Taft”, The Basics of BGP Routing and its Performance in Today’s Internet, Sprint.
“Anonymous”
lecture of Addressing and Domain Name System, CS640
Telecom App2b
Cisco CCNA Material
“Jennifer Rexford”, Internet Routing (COS 598A)