IP address

From Academic Kids

An IP address (Internet Protocol address) is a unique number, a kind of telephone number, used by machines (usually computers) to refer to each other when sending information through the Internet. This allows machines passing the information onwards on behalf of the sender to know where to send it next, and for the machine receiving the information to know that it is the intended destination.

An example IP address is 207.142.131.236. Converting to such numbers from the more human-readable form of domain addresses, such as www.wikipedia.org, is done via the Domain Name System. The process of conversion is known as resolution of the domain name.

Contents

More detail

The Internet Protocol (IP) knows each logical host interface by a number, the so-called IP address. On any given network, this number must be unique among all the host interfaces that communicate through this network. Users of the Internet are sometimes given a host name in addition to their numerical IP address by their Internet service provider.

The IP addresses of users browsing the world wide web are used to enable communications with the server of the web site. Also, it is usually in the header of email messages one sends. In fact, for all programs that utilize the TCP/IP protocol, the sender IP address and destination IP address are required in order to establish communications and send data.

Depending on one's Internet connection the IP address can be the same every time one connects (called a static IP address), or different every time one connects, (called a dynamic IP address). In order to use a dynamic IP address, there must exist a server which can provide the address. IP addresses are usually given out through a service called DHCP or the Dynamic Host Configuration Protocol.

Internet addresses are needed not only for unique enumeration of hosted interfaces, but also for routing purposes, therefore a high fraction of them are always unused or reserved.

IP version 4

Addressing

In version 4 of the Internet protocol (IPv4), the current standard protocol for the Internet, IP addresses consist of 32 bits, which makes for 4,294,967,296 (over 4 billion) unique host interface addresses in theory. In practice the address space is sparsely populated due to routing issues, so that there is some pressure to extend the address range via IP version 6 (see below).

IPv4 addresses are commonly expressed as a dotted quad, four octets (8 bits) separated by periods. The host known as www.wikipedia.org currently has the number 3482223596, written as 207.142.131.236 in base-256: 3482223596 equals 207×2563 + 142×2562 + 131×2561 + 236×2560. (Resolving the name "www.wikipedia.org" to its associated number is handled by Domain Name System servers.)

Historically, IPv4 addresses originally had only two parts. A later change increased that to three parts: the network part, the subnetwork part, and the host part, in that order. However, with the advent of classless inter-domain routing (CIDR), this is no longer true, and the address can have an arbitrary number of levels of hierarchy. (Technically, this was already true any time after the advent of subnets, since a site could elect to have more than one level of subnetting inside a network number.)

Due to each computer having its own IP address, tracking what computer has sent messages via forums and used registration sites is made easier. Many crimes and unlawful use of computers are stopped because of the Internet Protocol addresses. See also: Classful network

Assignment

The actual assignment of an address is not arbitrary. An organization, typically an Internet service provider, requests an assignment of a netblock from a registry such as the American Registry for Internet Numbers (ARIN). The network number comprises a range of addresses which the organization is free to allocate as they wish. An organization that has exhausted a significant part of its allocated address space can request another netblock.

For example, ARIN has allocated the addresses 64.78.200.0 through 64.78.207.255 to Verado, Inc. In turn, Verado has allocated the addresses 64.78.205.0 through 64.78.205.15 to Bomis. Bomis, in turn, has assigned the specific address 64.78.205.6 to the host interface that is named www.wikipedia.com.

As of February 2005, some large blocks assigned include:

Class A

Organization Block
Reserved by IANA as special-use addresses 0.0.0.0 - 0.255.255.255
General Electric 3.0.0.0 - 3.255.255.255
Level 3 Communications 4.0.0.0 - 4.255.255.255
Department of Defense Network Information Center 6.0.0.0 - 7.255.255.255
Level 3 Communications 8.0.0.0 - 8.255.255.255
IBM 9.0.0.0 - 9.255.255.255
Reserved by IANA as private address space 10.0.0.0 - 10.255.255.255
Department of Defense Network Information Center 11.0.0.0 - 11.255.255.255
AT&T WorldNet Services 12.0.0.0 - 12.255.255.255
Xerox Palo Alto Research Center 13.0.0.0 - 13.255.255.255
Reserved by IANA for public data networks 14.0.0.0 - 14.255.255.255
Hewlett-Packard Company 15.0.0.0 - 15.255.255.255
Digital Equipment Corporation 16.0.0.0 - 16.255.255.255
Apple Computer, Inc. 17.0.0.0 - 17.255.255.255
Massachusetts Institute of Technology 18.0.0.0 - 18.255.255.255
Ford Motor Company 19.0.0.0 - 19.255.255.255
Computer Sciences Corporation 20.0.0.0 - 20.255.255.255
Department of Defense Network Information Center 21.0.0.0 - 22.255.255.255
Various U.S. Cable Networks 24.0.0.0 - 24.255.255.255
Royal Signals and Radar Establishment 25.0.0.0 - 25.255.255.255
Department of Defense Network Information Center 26.0.0.0 - 26.255.255.255
Department of Defense Network Information Center 28.0.0.0 - 30.255.255.255
AT&T Global Network Services 32.0.0.0 - 32.255.255.255
Department of Defense Network Information Center 33.0.0.0 - 33.255.255.255
Halliburton Company 34.0.0.0 - 34.255.255.255
Merit Network, Inc. 35.0.0.0 - 35.255.255.255
Performance Systems International, Inc. 38.0.0.0 - 38.255.255.255
Eli Lilly and Company 40.0.0.0 - 40.255.255.255
African Network Information Center 41.0.0.0 - 41.255.255.255
Japan Inet 43.0.0.0 - 43.255.255.255
Amateur Radio Digital Communications 44.0.0.0 - 44.255.255.255
Interop Show Network 45.0.0.0 - 45.255.255.255
Bell-Northern Research 47.0.0.0 - 47.255.255.255
Prudential Securities Inc. 48.0.0.0 - 48.255.255.255
Department of Social Security of UK 51.0.0.0 - 51.255.255.255
E.I. DuPont de Nemours and Co., Inc. 52.0.0.0 - 52.255.255.255
Cap debis ccs (Mercedes-Benz) 53.0.0.0 - 53.255.255.255
Merck and Co., Inc. 54.0.0.0 - 54.255.255.255
Department of Defense Network Information Center 55.0.0.0 - 55.255.255.255
United States Postal Service 56.0.0.0 - 56.255.255.255
SITA - Socit Internationale De Telecommunications Aeronautiques  57.0.0.0 - 57.255.255.255
Asia-Pacific Network Information Centre (APNIC) 58.0.0.0 - 61.255.255.255
RIPE Network Coordination Centre 62.0.0.0 - 62.255.255.255
UUNet Technologies, Inc. 63.0.0.0 - 63.127.255.255
Comcast IP Services, L.L.C. 73.0.0.0 - 73.191.255.255
RIPE Network Coordination Centre 80.0.0.0 - 80.255.255.255


Exhaustion

Some private IP address space has been allocated via RFC 1918. This means the addresses are available for any use by anyone and therefore the same RFC 1918 IP addresses can be reused. However they are not routable on the Internet. They are used extensively due to the shortage of registerable addresses. Network address translation (NAT) is required to connect those networks to the Internet.

While a number of measures have been taken to conserve the limited existing IPv4 address space (such as the use of NAT and Private Addressing), the number of 32-bit IP addresses is not sufficient to accommodate the long-term growth of the Internet. For this reason, there is a general consensus that the Internet 128-bit IPv6 addressing scheme will be adopted over the next 5 to 15 years.

See also: IPv4 address exhaustion

IP version 5

What would be considered as IPv5 existed only as an experimental non-IP real time streaming protocol called ST2 described in RFC 1819. This protocol was abandoned in favour of RSVP.

IP version 6

In IPv6, the new (but not yet widely deployed) standard protocol for the Internet, addresses are 128 bits wide, which, even with generous assignment of netblocks, should suffice for the foreseeable future. In theory, there would be exactly 2128, or about 3.403 × 1038 unique host interface addresses. If the earth were made entirely out of 1 cubic millimetre grains of sand, then you could give a unique address to each grain in 300 million planets the size of the earth. This large address space will be sparsely populated, which makes it possible to again encode more routing information into the addresses themselves.

A version 6 address is written as eight 4-digit (16-bit) hexadecimal numbers separated by colons. One string of zeros per address may be left out, so that 1080::800:0:417A is the same as 1080:0:0:0:0:800:0:417A.

Global unicast IPv6 addresses are constructed as two parts: a 64-bit routing part followed by a 64-bit host identifier.

Netblocks are specified as in the modern alternative for IPv4: network number, followed by a slash, and the number of relevant bits of the network number (in decimal). Example: 12AB::CD30:0:0:0:0/60 includes all addresses starting with 12AB00000000CD3.

IPv6 has many improvements over IPv4 other than just bigger address space, including autorenumbering and mandatory use of IPsec.

Further reading: Internet RFCs including RFC 791 (http://www.rfc-editor.org/rfc/rfc791.txt), RFC 1519 (http://www.rfc-editor.org/rfc/rfc1591.txt) (IPv4 addresses), and RFC 2373 (http://www.rfc-editor.org/rfc/rfc2373.txt) (IPv6 addresses).

See also

External links

ca:Adrea IP da:IP-adresse de:IP-Adresse eo:IP-adreso es:Direccin IP et:IP-aadress fa:آدرس پروتکل اینترنت fi:IP-osoite fr:Adresse IP he:כתובת IP ja:IPアドレス li:IP adres nl:IP-adres nn:IP-adresse pl:Adres IP pt:Endereo IP ru:IP-адрес simple:IP address sl:IP naslov sq:Adresa IP sv:IP-nummer tr:IP adresi zh:IP地址

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