|"Internet protocol suite|
The Internet Protocol (IP) is the principal "communications protocol in the "Internet protocol suite for relaying "datagrams across network boundaries. Its "routing function enables "internetworking, and essentially establishes the "Internet.
IP has the task of delivering "packets from the source "host to the destination host solely based on the "IP addresses in the packet "headers. For this purpose, IP defines packet structures that "encapsulate the data to be delivered. It also defines addressing methods that are used to label the datagram with source and destination information.
Historically, IP was the "connectionless datagram service in the original Transmission Control Program introduced by "Vint Cerf and "Bob Kahn in 1974; the other being the connection-oriented "Transmission Control Protocol (TCP). The Internet protocol suite is therefore often referred to as TCP/IP.
The Internet Protocol is responsible for addressing hosts and for routing datagrams (packets) from a source host to a destination host across one or more IP networks. For this purpose, the Internet Protocol defines the format of packets and provides an addressing system that has two functions: Identifying hosts and providing a logical location service.["citation needed]
Each datagram has two components: a "header and a "payload. The "IP header is tagged with the source IP address, the destination IP address, and other meta-data needed to route and deliver the datagram. The payload is the data that is transported. This method of nesting the data payload in a packet with a header is called encapsulation.
IP addressing entails the assignment of "IP addresses and associated parameters to host interfaces. The address space is divided into networks and "subnetworks, involving the designation of network or routing prefixes. IP routing is performed by all hosts, as well as routers, whose main function is to transport packets across network boundaries. Routers communicate with one another via specially designed "routing protocols, either "interior gateway protocols or "exterior gateway protocols, as needed for the topology of the network.
IP routing is also common in local networks. For example, many Ethernet switches support "IP multicast operations. These switches use "IP addresses and "Internet Group Management Protocol to control multicast routing but use "MAC addresses for the actual routing.["citation needed]
In May 1974, the "Institute of Electrical and Electronic Engineers (IEEE) published a paper entitled "A Protocol for Packet Network Intercommunication". The paper's authors, "Vint Cerf and "Bob Kahn, described an "internetworking protocol for sharing resources using "packet switching among "network nodes. A central control component of this model was the "Transmission Control Program" that incorporated both connection-oriented links and datagram services between hosts. The monolithic Transmission Control Program was later divided into a modular architecture consisting of the "Transmission Control Protocol and "User Datagram Protocol at the "transport layer and the Internet Protocol at the "network layer. The model became known as the Department of Defense (DoD) Internet Model and "Internet protocol suite, and informally as TCP/IP.
IP versions 0 to 3 were experimental versions, used between 1977 and 1979. The following "Internet Experiment Note (IEN) documents describe versions of the Internet Protocol prior to the modern version of IPv4:
Version 5 was used by the "Internet Stream Protocol, an experimental streaming protocol.
The successor to IPv4 is "IPv6. Its most prominent difference from version 4 is the size of the addresses. While IPv4 uses "32 bits for addressing, yielding c. 4.3 "billion (×109) addresses, IPv6 uses " 4.3128-bit addresses providing ca. 340 "undecillion, or ×1038 addresses. Although adoption of IPv6 has been slow, as of June 2008 3.4[update], all "United States government systems have demonstrated basic infrastructure support for IPv6. IPv6 was a result of several years of experimentation and dialog during which various protocol models were proposed, such as TP/IX (RFC 1475), PIP (RFC 1621) and TUBA (TCP and UDP with Bigger Addresses, RFC 1347).
The assignment of the new protocol as IPv6 was uncertain until due diligence revealed that IPv6 had not yet been used previously. Other protocol proposals named IPv9 and IPv8 briefly surfaced, but had no affiliation with any international standards body, and have had no support.
The design of the Internet protocols is based on the "end-to-end principle. The network infrastructure is considered inherently unreliable at any single network element or transmission medium and is dynamic in terms of availability of links and nodes. No central monitoring or performance measurement facility exists that tracks or maintains the state of the network. For the benefit of reducing "network complexity, the intelligence in the network is purposely located in the "end nodes.
As a consequence of this design, the Internet Protocol only provides "best-effort delivery and its service is characterized as "unreliable. In network architectural language, it is a "connectionless protocol, in contrast to "connection-oriented communication. Various error conditions may occur, such as "data corruption, "packet loss, duplication and "out-of-order delivery. Because routing is dynamic, meaning every packet is treated independently, and because the network maintains no state based on the path of prior packets, different packets may be routed to the same destination via different paths, resulting in out-of-order sequencing at the receiver.
IPv4 provides safeguards to ensure that the IP packet header is error-free. A routing node calculates a "checksum for a packet. If the checksum is bad, the routing node discards the packet. Although the "Internet Control Message Protocol (ICMP) allows such notification, the routing node is not required to notify either end node of these errors. By contrast, in order to increase performance, and since current "link layer technology is assumed to provide sufficient error detection, the IPv6 header has no "checksum to protect it.
All error conditions in the network must be detected and compensated by the end nodes of a transmission. The "upper layer protocols of the Internet protocol suite are responsible for resolving reliability issues. For example, a host may "buffer network data to ensure correct ordering before the data is delivered to an application.
The dynamic nature of the Internet and the diversity of its components provide no guarantee that any particular path is actually capable of, or suitable for, performing the data transmission requested, even if the path is available and reliable. One of the technical constraints is the size of data packets allowed on a given link. An application must assure that it uses proper transmission characteristics. Some of this responsibility lies also in the upper layer protocols. Facilities exist to examine the "maximum transmission unit (MTU) size of the local link and "Path MTU Discovery can be used for the entire projected path to the destination. The IPv4 internetworking layer has the capability to automatically "fragment the original datagram into smaller units for transmission. In this case, IP provides re-ordering of fragments delivered out of order.
The "Transmission Control Protocol (TCP) is an example of a protocol that adjusts its segment size to be smaller than the MTU. The "User Datagram Protocol (UDP) and the "Internet Control Message Protocol (ICMP) disregard MTU size, thereby forcing IP to fragment oversized datagrams.
During the design phase of the ARPANET and the early Internet, the security aspects and needs of a public, international network could not be adequately anticipated. Consequently, many Internet protocols exhibited vulnerabilities highlighted by network attacks and later security assessments. In 2008, a thorough security assessment and proposed mitigation of problems was published. The "Internet Engineering Task Force (IETF) has been pursuing further studies.
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