Domain Description mil U.S. military institutions. gov U.S. (Web hosting isp)
Domain Description mil U.S. military institutions. gov U.S. government institutions. uucp Officially, all site names formerly used as UUCP names without domains have been moved to this domain. Historically, the first four of these were assigned to the U.S., but recent changes in policy have meant that these domains, named global Top Level Domains (gTLD), are now considered global in nature. Negotiations are currently underway to broaden the range of gTLDs, which may result in increased choice in the future. Outside the U.S., each country generally uses a top-level domain of its own named after the two-letter country code defined in ISO-3166. Finland, for instance, uses the fi domain; fr is used by France, de by Germany, and au by Australia. Below this top-level domain, each country’s NIC is free to organize hostnames in whatever way they want. Australia has second-level domains similar to the international top-level domains, named com.au and edu.au. Other countries, like Germany, don’t use this extra level, but have slightly long names that refer directly to the organizations running a particular domain. It’s not uncommon to see hostnames like ftp.informatik.unierlangen. de. Chalk that up to German efficiency. Of course, these national domains do not imply that a host below that domain is actually located in that country; it means only that the host has been registered with that country’s NIC. A Swedish manufacturer might have a branch in Australia and still have all its hosts registered with the se top-level domain. Organizing the namespace in a hierarchy of domain names nicely solves the problem of name uniqueness; with DNS, a hostname has to be unique only within its domain to give it a name different from all other hosts worldwide. Furthermore, fully qualified names are easy to remember. Taken by themselves, these are already very good reasons to split up a large domain into several subdomains. DNS does even more for you than this. It also allows you to delegate authority over a subdomain to its administrators. For example, the maintainers at the Groucho Computing Center might create a subdomain for each department; we already encountered the math and physics subdomains above. When they find the network at the Physics department too large and chaotic to manage from outside (after all, physicists are known to be an unruly bunch of people), they may simply pass control of the physics.groucho.edu domain to the administrators of this network. These administrators are free to use whatever hostnames they like and assign them IP addresses from their network in whatever fashion they desire, without outside interference. To this end, the namespace is split up into zones, each rooted at a domain. Note the subtle difference between a zone and a domain: the domain groucho.edu encompasses all hosts at Groucho Marx University, while the zone groucho.edu includes only the hosts that are managed by the Computing Center directly; those at the Mathematics department, for example. The hosts at the Physics department belong to a different zone, namely physics. groucho.edu. In Figure 6.1, the start of a zone is marked by a small circle to the right of the domain name. Name Lookups with DNS At first glance, all this domain and zone fuss seems to make name resolution an awfully complicated business. After all, if no central authority controls what names are assigned to which hosts, how is a humble application supposed to know? Now comes the really ingenious part about DNS. If you want to find the IP address of erdos, DNS says, “Go ask the people who manage it, and they will tell you.” In fact, DNS is a giant distributed database. It is implemented by so-called name servers that supply information on a given domain or set of domains. For each zone there are at least two, or at most a few, name servers that hold all authoritative information on hosts in that zone. To obtain the IP address of erdos, all you have to do is contact the name server for the groucho.edu zone, which will then return the desired data.