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Routing tables do not use physical address and instead use IP address. Once a router has found a path/rule matching for an IP datagram, it uses the next hop/destination IP address and changes it to physical address (either via ARP cache or ARP request) and then sends the frame.

Instead of finding the mapping why don't we use physical address directly. On reason I came up in few references was:

For debugging purpose IP address is far suitable and the goal of protocols is to abstract the physical layer. I am not convinced with these.

Why was IP protocol routing designed to use IP address and not physical address for destination? I am not questioning the use of IP address in datagram. I am questioning the use of IP address for next hop.

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closed as off topic by EJP, John Conde, Bhavik Ambani, Sameer, shiplu.mokadd.im Dec 25 '12 at 5:23

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3 Answers 3

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This is completely inconsistent with the purpose of routing entirely. The point of routing is to know that a particular device has the routes you need. Devices can have any number of network endpoints, each of which can have a physical address associated with it. Mapping routes to endpoints would require multiple routes for devices with multiple endpoints and it would require potentially modifying thousands of routes if your path to their next hop changed. The idea is a non-starter.

If the router 1.2.3.4 has a route to 216.152.40.0/16, then that's what I need to know. I may not even be directly connected to that router. And the particular way I get traffic to that router can change.

A router may have thousands of routes. And you may have multiple paths to that router. You don't want to have to have multiple instances of those thousands of routes. To resolve this, the router has an IP address by which it is identified and that IP address is the destination of routes it advertises.

That the router with that IP address has routes to those IP addresses is the information an IP route conveys. It is logically independent of how people using those routes reach that router.

Also, how would you relay routes? If you keep the original physical address, machines receiving the route would have no idea how to reach it. If you change the physical address, then you'd be creating many copies of each route as each router forwarded the route. Again, the primary use case of the routes would be defeated by such a scheme.

A physical address is useless without knowing what interface it's associated with. And knowing what local interface an address is associated with is meaningless to any other device.

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I did not said not use IP addresses in packets. Question says in routing table the destination can be physical address. –  useratuniv Dec 23 '12 at 23:24
    
Then you'd have to change potentially thousands of routes just because your next hop's physical address changed. Machines not connected directly to you don't have physical addresses you can do anything useful with. (How would you forward routes? The recipient wouldn't know what that physical address meant.) –  David Schwartz Dec 23 '12 at 23:25
    
This we do if IP address also changes, how frequently does physical address of next hop change ? –  useratuniv Dec 23 '12 at 23:27
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The whole point of dynamic routing is to accommodate changes in the next hop's physical address. You don't want to change all the routes because there's potentially tens of thousands of them. –  David Schwartz Dec 23 '12 at 23:28
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Every machine is directly connected to one or more routers if it's able to reach machines outside its own network. And every machine is indirectly connected to thousands of routers if it has Internet connectivity. There aren't distinct cases. (The hosts you are dealing with, running OSes like OSX, Windows, and Linux, actually act like routers rather than end systems. They all have capabilities like NAT, VPNs, and so on. So they are built like routers are internally.) –  David Schwartz Dec 23 '12 at 23:41

For simple routing issues your idea makes perfect sense. After all, when the next hop is on the same ethernet LAN as your system then the next hop IP address in the routing table is only used to look up the next hop MAC address (done using ARP for IPv4 or NDP for IPv6) to use when sending the packet on the ethernet.

One potential problem here is when you start replacing hardware. If your router breaks down and you replace it with a new one the new router will probably have a different MAC address but still be configured with the same IP address. If the MAC address was used in the routing table and routing configuration (default gateway for example) then you would have to change the routing table on all systems on the LAN. When using the IP address in the configuration ARP or NDP will find out automatically what the correct MAC address is.

Using IP addresses becomes more useful when you do i.e. iBGP routing. In BGP the BGP next hop address doesn't have to be connected to the same LAN as the router that uses the route and therefore doesn't have to be the same as the ethernet next hop. When routing packets to a BGP destination the router looks up the BGP next hop, and then uses for example OSPF to look up how to reach that BGP next hop. If a network connection fails the BGP next hop IP address stays the same but OSPF will try to find another route to that address. That is good for the stability of the network. Doing all this with MAC addresses would mean that the whole routing topology would have to be recalculated with every network change or outage.

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For what it's worth, the routing table on my Mac right now looks like this:

Destination        Gateway            Flags        Refs      Use   Netif Expire
default            192.168.0.1        UGSc           87        0     en1
127                127.0.0.1          UCS             0        0     lo0
127.0.0.1          127.0.0.1          UH              2 10341170     lo0
169.254            link#4             UCS             0        0     en1
192.168.0          link#4             UCS             1        0     en1
192.168.0.1        e0:91:f5:85:7c:d8  UHLWIir        88     3179     en1    289
192.168.0.4        127.0.0.1          UHS             0        0     lo0

It would appear that here, some routes are IP numbers, while one is a MAC address, and two are something else!

One reason not to translate to link-layer addresses in the routing table is that the IP number for a gateway might move from one address to another. This is unlikely, but could happen if it was multihomed. I think.

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By change in gateway you mean what if a gateway server is moved? If yes, then physical address also changes, right? –  useratuniv Dec 23 '12 at 23:19
    
When a computer is moved, its physical address doesn't change. –  Al Kepp Dec 23 '12 at 23:21

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