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CS 6401 Efficient Addressing Outline Addressing Subnetting Supernetting.

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Presentation on theme: "CS 6401 Efficient Addressing Outline Addressing Subnetting Supernetting."— Presentation transcript:

1 CS 6401 Efficient Addressing Outline Addressing Subnetting Supernetting

2 CS 6402 Global Addresses Properties –IPv4 uses 32 bit address space –globally unique –hierarchical: network + host Dot Notation –10.3.2.4 –128.96.33.81 –192.12.69.77 Assigning authority –Jon Postel ran IANA ‘til ‘98 –Assigned by ICANN NetworkHost 724 0 A: NetworkHost 1416 10 B: NetworkHost 218 110 C: 111 D: 0 Multicast 111 E: 1 Experimental

3 CS 6403 How to Make Routing Scale Flat (Ethernet) versus Hierarchical (Internet) Addresses –All hosts attached to same network have same network address Problem: inefficient use of Hierarchical Address Space –class C with 2 hosts (2/255 = 0.78% efficient) –class B with 256 hosts (256/65535 = 0.39% efficient) Problem: still Too Many Networks –routing tables do not scale Big tables make routers expensive –route propagation protocols do not scale

4 CS 6404 Subnetting - 1985 Original intent was for network to identify one physical network –Lots of small networks are what we actually have – how do we handle this? Solution: add another level to address/routing hierarchy: subnet –Allocate addresses to several physical networks –Routers in other ASs (networks) route all traffic to network as if it is a single physical network Subnet masks define variable partition of host part –1’s identify subnet, 0’s identify hosts within the subnet –Mechanism for sharing a single network number among multiple networks Subnets visible only within a site Network numberHost number Class B address Subnet mask (255.255.255.0) Subnetted address 11111111111111111111111100000000 Network numberHost IDSubnet ID

5 CS 6405 Subnet Example Forwarding table at router R1 Subnet Number Subnet Mask Next Hop 128.96.34.0 255.255.255.128 interface 0 128.96.34.128 255.255.255.128 interface 1 128.96.33.0 255.255.255.0 R2 Subnet mask: 255.255.255.128 Subnet number: 128.96.34.0 128.96.34.15 128.96.34.1 H1 R1 128.96.34.130 Subnet mask: 255.255.255.128 Subnet number: 128.96.34.128 128.96.34.129 128.96.34.139 R2 H2 128.96.33.1 128.96.33.14 Subnet mask: 255.255.255.0 Subnet number: 128.96.33.0 H3

6 CS 6406 Forwarding Algorithm D = destination IP address for each entry (SubnetNum, SubnetMask, NextHop) D1 = SubnetMask & D if D1 = SubnetNum if NextHop is an interface deliver datagram directly to D else deliver datagram to NextHop Use a default router if nothing matches Not necessary for all 1s in subnet mask to be contiguous Can put multiple subnets on one physical network Subnets not visible from the rest of the Internet This is a simple, toy example!!

7 CS 6407 Subnets contd. Subnetting is not the only way to solve scalability problems Additional router support is necessary to include netmask and forwarding functionality Non-contiguous netmask numbers can be used –They make administration more difficult Multiple subnets can reside on a single network –Requires routers within the network Subnets help solve scalability problems –Do not require us to use class B or C address for each physical network –Help us to aggrigate information Chief advantage of IP addresses: routers could keep one entry per network instead of one per destination host

8 CS 6408 Continued Problems with IPv4 Addresses Problem: –Potential exhaustion of IPv4 address space (due to inefficiency) Class B network numbers are highly prized –Not everyone needs one Lots of class C addresses but no one wants them –Growth of back bone routing tables We don’t want lots of small networks since this causes large routing tables Route calculation and management requires high computational overhead Solution: –Allow addresses assigned to a single entity to span multiple classed prefixes –Enhance route aggregation

9 CS 6409 Supernetting Assign block of contiguous network numbers to nearby networks Called CIDR: Classless Inter-Domain Routing –Breaks rigid boundries between address classes –If ISP needs 16 class C addresses, make them contiguous Eg.192.4.16 to 192.4.31 enables a 20-bit network number –Idea is to enable network number to be any length –Collapse multiple addresses assigned to a single AS to one address Represent blocks (number of class C networks) with a single pair (first_network_address, count) Restrict block sizes to powers of 2 Use a bit mask (CIDR mask) to identify block size All routers must understand CIDR addressing

10 CS 64010 CIDR Addresses Identifying a CIDR block requires both an address and a mask –Slash notation –128.211.168.0/21 for addresses 128.211.168.0 – 128.211.175.255 Here the /21 indicates a 21 bit mask –All possible CIDR masks can easily be generated /8, /16, /24 correspond to traditional class A, B, C categories IP addresses are now arbitrary integers, not classes Raises interesting questions about lookups –Routers cannot determine the division between prefix and suffix just by looking at the address Hashing does not work well Interesting lookup algorithms have been developed and analyzed

11 11 CIDR Address Assignment 201.10.0.0/20 201.10.0.0/22201.10.4.0/24201.10.5.0/24201.10.6.0/23 Provider

12 12 CIDR Implications Longest prefix match –7 contiguous Class C’s given to network A: 200.10.0.0 – 200.10.6.255 N/w number – 200.10.0.0/21 –8 th class C given to network B: 200.10.7.0 – 200.10.7.255 N/w number – 200.10.7.0/24 –Packet with destination address 200.10.7.1 matches both networks Must pick the most specific match!

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