1. ES 101. Module 3 Domain Name System (DNS)

2. Last Lecture Routing and IP addressing

3. This Lecture Domain Name System

4. Domain Name System History DNS provides host IP address to mnemonic name mapping Originally this was accomplished by a set of configuration files on each client and server –/etc/hosts –/etc/networks These files at first were manually configured by the System Administrator using a text editor –Highly subject to typographical errors

5. DNS History (cont’d) In the early days of the Internet, the Network Information Center (NIC) maintained a single etc/hosts file, which could be downloaded for host configuration –HOSTS.TXT –ftp’d by all hosts (RFC 952 and 953) The bandwidth consumed by this process is proportional to the square of the number of hosts –Outgoing ftp load on the NIC host was very high –Made worse by the astronomical number of hosts on the Internet

6. DNS History (cont’d) This situation caused the development of a network-wide, distributed database system which did this host name to IP address mapping –Originally known as Berkeley Internet Domain Server, or BIND –Later renamed to Domain Name System (DNS) We will study the host configuration files to gain insight into the operation of the DNS –Host files are still used for small private networks on both Unix and Microsoft networks

7. Internet Hosts vs. Time DateNo. Hosts 1984 1,000 1989100,000 1992> 1.0 Million 19943.2 Million Today????

8. Internet Names With millions of Hosts on the Internet, how do you easily specify the host that you want to interact with? –IP addresses are very hard to memorize for humans –DNS was developed to provide an easy to remember addressing scheme Originally specified in RFCs 1032, 1033, 1034, and 1035 Checkout the following web site for access to all RFCs: http://www.cis.ohio-state.edu/cs/Services/rfc

9. /etc/hosts File Every computer on a TCP/IP network has an IP address, canonical host name, and zero or more host name aliases The /etc/hosts file is the classical method for mapping IP addresses to host names Format of the hosts file consists of one IP address per line –Note that the 127.0.0.0 address is the local loopback IP address

10. Host File Example

11. /etc/networks File Networks and subnets are also named The handling of network address to network name mapping is accomplished by the /etc/networks file

12. Network File Example

13. Introduction to DNS DNS is essentially a hierarchical, distributed local hosts database The DNS name provides an easily recognized structure DNS can be conceptually divided into three parts –Domain name space –Name servers –Resolvers Each of these will be discussed in the following charts

14. Domain Name Space DNS is partitioned into different “Domains” It is organized hierarchically Top level domain names are globally specified Second-level domain names are unique to each organization, and must be registered with via a “registrar” –Domain names are not associated with a location –You can search for a unique name using the “whois” utility of the registrar –When you find no match, the name is available –You can then register the name with a registrar to reserve it

15. Top Level Domain Names

16. Fully Qualified Domain Names The highest level of the hierarchical structure (root) is “dot” The proper syntax for a fully qualified domain name includes the trailing period –Standard practice is not to include it, since it is understood

17. Domain Name Hierarchy

18. Second Level Domain Names These names are registered by qualified registrars –www.networksolutions.com originally –Many other registrars are now available, for example: Domain Direct (http://www.domaindirect.com/) Each domain is given its own authority to create subdomains –Example: http://eecs.vuse.vanderbilt.edu A (sub)domain may contain an entire network, or only parts of a network

19. Domain Physical Representation

20. Domain Name Tree The easiest representation of the DNS name is as a “tree” Each domain represents a “branch” of the tree The “leafs” of the tree are individual host machines

21. DNS Servers The DNS database is distributed among a number of servers –These servers perform the DNS name to IP address mapping –They are referred to as name servers Each domain is responsible for maintaining a minimum of one primary and secondary DNS servers –This function can be subcontracted to others –No single DNS server could hold the database for the entire Internet

22. DNS Servers (cont’d) DNS servers that are in different locations operate cooperatively to resolve the name to IP address mapping request Distributed databases have the advantage that they are efficient If the names that are accessed most frequently are in a local cache (DNS server), the DNS lookup traffic across the Internet is greatly reduced

23. DNS Servers (cont’d) Distributed databases are also more reliable than a single machine –One failure cannot “take down” the network

24. DNS Forwarding If you do not wish to host your own DNS server, you can pay for a service known as “DNS Forwarding” –Typically provided by the registrar What happens is that the registrar maintains the redundant DNS servers The URL of interest is locally controlled by the registrar A table entry is made into the registrar’s DNS database to go to the IP address of a server that is specified by you –This is done by a “control panel” Name resolution requests can then be referred to any IP address on the Internet –Even your dorm PC, assuming that it has a static IP address

25. Static IP Addresses You may request a “static” IP address from your ISP However, this is becoming more difficult, since ISPs like to manage their own IP address space –This is because IP addresses are in short supply When this is done, your PC requests an IP address from a “Dynamic Host Configuration Protocol” (DHCP) server –Your machine is then assigned an IP address This address “ages” and is changed periodically –However, Vanderbilt does not change this often

26. Dynamic Address Determination How would you determine your DHCP assigned IP address? –“ipconfig” command –“What’s my IP” web site http://www.whatismyip.com/ If your IP address does not change often, you can DNS forward to it –If the IP changes, you simply log onto the registrar’s control panel and repoint the URL to the new IP address

27. Assignment Those of you willing to spend ~$30/year should register a domain name of your choosing

28. Web Servers Note that the DNS only points to an IP address A server that hosts many web sites, must still resolve the URL to the proper “index.htm” file for the web site of interest This is done by a local DNS server process that only points to the internal folders –No updates from the Internet –This information is not distributed out to the Internet An example is the Helios server here at Vanderbilt

29. DNS Name Resolution Each client executes a DNS client software process known as a “(DNS) name resolver” This software communicates with the DNS Server established in the client by the network administrator Name servers are arranged in a tree structure that corresponds to the naming hierarchy Each lower-level server knows what the higher- level servers are by their IP address

30. DNS Name Server Registration An organization registers for a second-level domain name It is required to provide and maintain a two name servers for that sub-domain –These servers are known as the “Authority Name Servers” for the domain The name server must be linked into the DNS server tree If you use an ISP, you can use their DNS servers.

31. Name Server Modes Depending on the client request, the name server operates in one of two modes When the resolver queries a name server, the message contains the following information –Name to be resolved –Class code of the name Protocol group to be used, ie. IP, IPX, etc. For IP, the class code is IN –Type of response desired, ie. IP address –Action code that specifies whether the name server should translate the name completely

32. Object Types DNS servers can be used for multiple functions –Translation of a host name to an IP address –Look up a mail server address This information is differentiated by Object Types –Also known as resource record types

33. Common DNS Resource Record Types

34. DNS Query Processing When a domain name server receives a query from a client, it checks to see if the name is within its subdomain –If so, it sends back the information to the resolver If the name server cannot resolve the name completely, it checks the “action code” to see what the client specified –Recursive resolution (complete lookup) –Iterative resolution (non-recursive lookup)

35. Recursive Resolution Schematic Name server asks for assistance from other higher level name servers

36. Iterative Resolution Name server generates an error if it cannot resolve the name Client is informed of the name server that it should query next

37. Non-Recursive Resolution Schematic

38. Name Caching Name resolution is performed from left to right –Local authority up to higher levels –Most efficient path for name resolution Each name server also keeps a cache of recently resolved names and the mapping information –This information “ages off” the name server It is up to the clientsoftware to decide if the returned information is good enough

39. Name Resolution Sequence Client queries the name server Name server first checks for local resolution Next checks its name cache to see if the name was recently resolved If found, the name server reports back to the resolver If not, the name server follows the “action code” provided –Recursive resolution –Non-recursive resolution

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