Difference between revisions of "IP Address"

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-{{IPstack}}
-An '''IP address''' ('''Internet Protocol address''') is a unique [[Network address|address]] that certain electronic devices use in order to identify and communicate with each other on a [[computer network]] utilizing the [[Internet Protocol]] standard ('''IP''')&mdash;in simpler terms, a computer [[Logical address|address]]. Any participating network device&mdash;including [[routers]], [[computer]]s, time-servers, [[Computer printer|printers]], [[Internet]] [[fax]] machines, and some [[telephone]]s&mdash;can have their own unique address.
-In other words, the IP address acts as a '''locator''' for one IP device to find another and interact with it.  It is not intended, however, to act as an '''identifier''' that always uniquely identifies a particular device.
-An IP address can also be thought of as the equivalent of a [[Address (geography)|street address]] or a [[phone number]] (compare: [[Voice over IP|VoIP]] (voice over (the) internet protocol)) for a computer or other network device on the Internet.  Just as each street address and phone number uniquely identifies a building or telephone, an IP address can uniquely identify a specific computer or other network device on a network.  An IP address differs from other contact information, however, because the linkage of a user's IP address to his/her name is not publicly available information.
-Further, an IP address is not necessarily linked, in a persistent way, to a physical location or even [[Data link layer | data link layer]] address.
-In the past, an IP address could be considered a unique '''identifier''' of a particular IP host, in addition to being a locator.  When it was usable as an identifier, it was '''static''', and it was assumed to be '''globally unique''' from end to end of the Internet.
-In current practice, an IP address is less likely to be an identifier, due to technologies such as:
-* '''Dynamic assignment''', as with an address that is assigned by the access device by which the user's host connects over a dialup telephone line or by a set-top box for an IP over cable network
-* '''Network address translation''', where the address visible on the Internet is the "outside" of a device that maps it to a completely different and hidden address on the "inside".
-==Static and dynamic IP addresses==
-{{section stub}}
-A ''Static IP address'' is where a computer uses the same address every time a user logs on to a network, such as the Internet. This is essential in some infrastructure situations, such as finding the [[Domain Name Service]] directory host that will translate names to numbers.
-Static addresses are convenient, but not absolutely necessary, to locate servers inside an enterprise. An address obtained from a DNS server comes with a lifetime argument, after which it should be looked up to confirm that it has not changed. Addresses do change as a result of network administration (RFC 2072).
-This contrasts with a ''Dynamic IP address'', wherein an IP address is assigned to a computer, usually by a remote server which is acting as a [[Dynamic Host Configuration Protocol]] server. IP addresses assigned using DHCP may change depending on the addresses available in the set scope. Dynamic IP Addresses assigned by [[Dynamic Host Configuration Protocol]] servers are used because it reduces the administrative burden of assigning static addresses within a network.
-== IP address translation ==
-IP addresses can appear to be shared by multiple client devices either because they are part of a [[shared hosting]] [[web server]] environment or because a [[network address translator]] (NAT) or [[proxy server]] acts as an [[intermediary]] agent on behalf of its customers, in which case the real originating IP addresses might be hidden from the server receiving a [[request]]. A common practice is to have a NAT hide a large number of IP addresses, in the private address space defined by RFC 1918, an address block that cannot be routed on the public Internet. Only the "outside" interface(s) of the NAT need to have Internet-routable addresses.
-Most commonly, the NAT device maps TCP or UDP port numbers on the outside to individual private addresses on the inside. Just as there may be site-specific extensions on a telephone number, the port numbers are site-specific extensions to an IP address.
-IP addresses are managed and created by the [[Internet Assigned Numbers Authority]] (IANA). The IANA generally allocates super-blocks to [[Regional Internet Registry|Regional Internet Registries]], who in turn allocate smaller blocks to [[Internet service provider]]s and [[Enterprise_storage|enterprises]].
-==IP versions==
-The Internet Protocol has two versions currently in use (see [[Internet Protocol#Version history|IP version history]] for details).  Each version has its own definition of an IP address.  Because of its prevalence, "IP address" typically refers to those defined by [[IPv4]].
-===IP version 4===
-{{main|IPv4#Addressing}}
-IPv4 only uses 32-[[bit]] (4 [[byte]]) addresses, which limits the [[address space]] to 4,294,967,296 (2<sup>32</sup>) possible unique addresses. However, many are reserved for special purposes, such as [[private network]]s (~18 million addresses) or [[multicast address]]es (~270 million addresses). This reduces the number of addresses that can be allocated as public Internet addresses, and as the number of addresses available is consumed, an [[IPv4#Exhaustion|IPv4 address shortage ]] appears to be inevitable in the long run. This limitation has helped stimulate the push towards [[IPv6]], which is currently in the early stages of deployment and is currently the only contender to replace IPv4.
-Example: 127.0.0.1 (Loopback)
-;;;;;;
-=== IP version 6 ===
-{{main|IPv6#Addressing}}
-IPv6 is the new standard protocol for the Internet. [[Windows Vista]], [[Apple Computer]]'s [[Mac OS X]], and an increasing range of [[Linux]] distributions include native support for the protocol, but it is not yet widely deployed elsewhere.
-Addresses are 128 bits (16 bytes) wide, which, even with a generous assignment of netblocks, will more than suffice for the foreseeable future. In theory, there would be exactly 2<sup>128</sup>, or about 3.403 &times; 10<sup>38</sup> unique host interface addresses. Further, this large address space will be sparsely populated, which makes it possible to again encode more routing information into the addresses themselves.
-Example: 2001:0db8:85a3:08d3:1319:8a2e:0370:7334
-One source<ref>[http://www.technologyreview.com/Infotech/13426/ Article] in MIT magazine ''Technology Review'' introducing IPv6</ref> notes that there will exist "roughly 5,000 addresses for every square micrometer of the Earth's surface". This enormous magnitude of available IP addresses will be sufficiently large for the indefinite future, even though mobile phones, cars and all types of personal devices are coming to rely on the Internet for everyday purposes.
-The above source, however, involves a common misperception about the IPv6 architecture. Its large address space is not intended to provide unique addresses for every possible point. Rather, the addressing architecture is such that it allows large blocks to be assigned for specific purposes and, where appropriate, aggregated for provider routing. With a large address space, there is not the need to have complex address conservation methods as used in [[classless inter-domain routing]] (CIDR).
-==== IP version 6 private addresses ====
-Just as there are addresses for private, or internal networks in IPv4 (one example being the 192.168.0.0 - 192.168.255.255 range), there are blocks of addresses set aside in IPv6 for private addresses. Addresses starting with FE80: are called link-local addresses and are routable only on your local link area. This means that if several hosts connect to each other through a hub or switch then they would communicate through their link-local IPv6 address.
-Early designs specified an address range used for "private" addressing, with prefix FEC0. These are called site-local addresses (SLA) and are routable within a particular site, analogously to IPv4 private addresses. Site-local addresses, however, have been deprecated by the IETF, since they create the same problem that does the existing IPv4 private address space (RFC 1918). With that private address space, when two sites need to communicate, they may have duplicate addresses that "combine". In the IPv6 architecture, the preferred method is to have unique addresses, in a range not routable on the Internet, issued to organizations (e.g., enterprises).
-The preferred alternative to site-local addresses are centrally assigned unique local unicast addresses (ULA). In current proposals, they will start with the prefix FC00.
-Neither ULA nor SLA nor link-local address ranges are routable over the internet.
-==See also==
-*[[Ping]]
-*[[IP Multicast]]
-*[[MAC address]]
-*[[Regional Internet Registry]]
-**[[AfriNIC|African Network Information Center]]
-**[[American Registry for Internet Numbers]]
-**[[RIPE NCC|RIPE Network Coordination Centre]]
-**[[Asia-Pacific Network Information Centre]]
-**[[Latin American and Caribbean Internet Addresses Registry]]
-*[[Subnetwork|Subnet address]]
-*[[Geolocation]]
-*[[Geolocation software]]
-*[[Country IP database]]
-*[[Geo (marketing)]]
-*[[Honeypot (computing)|Honeypot]]
-*[[Data mining]]
-*[[IP address spoofing]]
-*[[Private network]]
-*[[IP blocking]]
-</div>
-==External links==
-* {{dmoz|Computers/Internet/Protocols/IP/|IP}}
-<!--
-Please do not add links for finding out your IP address.
-     This article is *about* IP addresses, not a newbie guide on how to find yours.
-     The above DMOZ link should be a good starting point.
-As the majority of external links added here end up being removed, you are HIGHLY advised to take it up on the TALK PAGE before adding a link.
--->
-*[http://www.iplobster.com/ IP Address | My IP | IP | Find IP Address | Whats My IP | IP Lookup]
-*[http://www.circleid.com/tags/ip+addressing Articles on CircleID about IP addressing]
-*[http://www.byte.com/art/9602/sec16/art4.htm IP-Address Management on LANs] &mdash; article in ''[[Byte (magazine)|Byte]]'' magazine
-*[http://www.3com.com/other/pdfs/infra/corpinfo/en_US/501302.pdf Understanding IP Addressing: Everything You Ever Wanted To Know]
-===RFCs===
-* IPv4 addresses: RFC 791, RFC 1519, RFC 1918
-* IPv6 addresses: RFC 4291
-==References==
-<references/>
-<!--
-Before you add new external link here, please make sure it points to information about IP addresses, and not to services offering IP location, etc.  Especially, simple IP lookup tools are a dime a dozen and this article has decided not to list any of them.  Please discuss new additions on the talk page first so your link won't be treated as yet another spam.
-Thank you.
--->
-[[Category:Network addressing]]
-[[Category:Internet Protocol|Address]]
-[[af:IP-adres]]
-[[als:IP-Adresse]]
-[[ar:عنوان الاي بي]]
-[[an:Adreza IP]]
-[[br:Ennegañ IP]]
-[[ca:Adreça IP]]
-[[cs:IP adresa]]
-[[da:IP-adresse]]
-[[de:IP-Adresse]]
-[[et:IP-aadress]]
-[[el:Διεύθυνση IP]]
-[[es:Dirección IP]]
-[[eo:IP-adreso]]
-[[eu:IP helbide]]
-[[fa:قرارداد اینترنتی]]
-[[fo:IP-adressa]]
-[[fr:Adresse IP]]
-[[gu:IP address]]
-[[ko:IP 주소]]
-[[hr:IP broj]]
-[[id:Alamat IP]]
-[[is:Vistfang]]
-[[it:Indirizzo IP]]
-[[he:כתובת IP]]
-[[ka:IP-მისამართი]]
-[[lt:IP adresas]]
-[[li:IP-adres]]
-[[ms:Alamat IP]]
-[[nl:IP-adres]]
-[[ja:IPアドレス]]
-[[no:IP-adresse]]
-[[nn:IP-adresse]]
-[[pl:Adres IP]]
-[[pt:Endereço IP]]
-[[ksh:IP-Nummer]]
-[[ru:IP-адрес]]
-[[sq:Adresa IP]]
-[[sk:IP adresa]]
-[[sl:IP-naslov]]
-[[sr:ИП адреса]]
-[[fi:IP-osoite]]
-[[sv:IP-adress]]
-[[ta:இ.நெறி முகவரி]]
-[[kab:Tansa IP]]
-[[th:หมายเลขไอพี]]
-[[vi:Địa chỉ IP]]
-[[tr:IP adresi]]
-[[yi:IP אדרעס]]
-[[bat-smg:IP adrėsas]]
-[[zh:IP地址]]

Difference between revisions of "IP Address"

Latest revision as of 05:32, 14 September 2007

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