History of WWW Internet Principles SIMS-201

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Presentation transcript:

History of WWW Internet Principles SIMS-201 http://www.internetsociety.org/history?gclid=CNrnk7ja17kCFYJU4godjD0AcQ

Overview Chapters 2 and 20 Introduction to the internet

What is the Internet? The internet is a publicly available, global network of computers It interconnects billions of Users. For example: Businesses Citizens Governments Academic Institutions Research Centers Libraries Etc. Provides a Common Communications System for Diverse Computing and Network Environments Still Rapidly Expanding Involves Numerous Technologies (Not a Single Technology)

Internet History Milestones 1993 Web Browser “Mosaic” invented by Mark Andreesen 1985 NSFNET founded by The National Science Foundation 1969 ARPANET R&D Project 1983 DOD Mandated Adoption of TCP/IP ARPANET INTERNET 1974 Vinton Cerf and Robert Kahn Initiated TCP/IP 1983 ARPANET Split into ARPANET and MILNET 1991 World Wide Web Released by Tim-Berners Lee

Applications of the Internet The internet is used for a many of applications. For example: WWW Email Instant messaging

The World Wide Web (WWW) The world wide web is a sophisticated system for universal information capture and delivery The world wide web consortium (W3C) definition of the web: "The World Wide Web is the universe of network-accessible information, an embodiment of human knowledge" Provides information access in ways not previously possible Hyperlinked (Hypertext) Graphical user interface Pictorial and non-text information Information that changes rapidly Immediate access Anyone can author a web site Multi-user access to the same information (try that with a book) Easily searchable information

The functionality of the WWW is based on 3 main standards: URL (Universal Resource Locator) HTML (Hypertext Markup Language) HTTP (Hypertext transfer Protocol)

Denotes that the File is Written in HTML HyperText Markup Language The Universal Resource Locator (URL) Each page of information on the web has a unique address called the URL at which it can be found http://faculty.uscupstate.edu/atzacheva/lecture1.html The document can be obtained using the Hypertext Transfer Protocol (HTTP) Host Name - The Name of Web Server Path to the Web Page File Name Denotes that the File is Written in HTML HyperText Markup Language 1 2 3 File Name Protocol Host Name

HTML HTML is a universal, simple language for formatting text. It also allows embedding of graphics, and linking of documents via ‘hyperlinks’. ‘Hypertext’ documents allow readers to freely move around the document, following links to subjects of interest. HTML is a language that is used to specify the structure of documents for retrieval across the Internet using browsers.

A portion of the html document from the course web site: href="../SIMS201/Fall2006/ComputerNetworks_Chapter19.ppt">Computer Networks</a>

HTTP The standard Web transfer protocol is HTTP (HyperText Transfer Protocols). It is used for document exchange between servers and clients (typically browsers) in the WWW. To retrieve a document, the client first sends a request to the web server and waits for a reply An HTTP daemon/service (a program that waits for http requests) on the server then handles the request and the document is sent to the client (over a connection established using TCP/IP – Transmission Control Protocol / Internet Protocol) We recall from previous lectures, that a Protocol is “Agreed upon sets of rules that provide order to a system or situation.” In this case, a set of rules/standards for communicating on the Internet.

Web Client/Server Architecture

How the Internet works

Underlying principle of the Internet: Packet Switching The internet was first conceived in 1969 as ARPANET (Advanced Research Projects Agency Network) which was used to connect computers in geographically dispersed research centers ARPANET was the first major implementation of a packet switched network Previously, data communications were based on circuit switching as in traditional telephone networks, where a dedicated link is set up for the duration of the call The invention of packet switching in the early 1960’s enabled the transmission of data over links that are not established beforehand. In packet switching, data is assembled into packets which are then independently routed (using routers) to their destination through various links over the network. This leads to the distribution of resources, an increase in resource utilization, and increased fault tolerance since a packet may take alternative routes to reach its destination The destination node receives these packets and re-assembles them to construct the original message This breakthrough was what made internet a reality

One possible route for a data packet Destination Source One possible route for a data packet Source: http://howstuffworks.com

Addressing Schemes We know that packets are sent over the network, but how does a packet reach its destination? Three addressing schemes are used concurrently in sending information across the Internet Organizationally-Unique Identifier (OUI) This is the 48-bit (MAC) unique address stamped on Network Interface Cards IP Address All devices connected to the internet are identified by a unique 32-bit IP address It is via IP addresses that computers in the internet can identify each other Domain Name System (DNS) Hierarchical, alphanumeric addressing scheme that is a “synonym” of an IP address

The IP Address Unique 32-bit (4 byte) logical address 129.174.1.8 (This one belongs to GMU) Made up of two parts Network Number Identifies a network Must be assigned by the Internet Network Information Center (InterNIC) Host Number Identifies a host on a network Assigned by the local network administrator Decimal IP address

IP Address Classes There are 5 different classes of IP addresses: A, B, C, D and E. A, B, and C are available for commercial use For example, a Class A network could support 126 networks, each with 16,777,216 hosts

(Example of an IP address in dotted decimal form) Converting a 32-bit Internet Address to Dotted Decimal Format Recall binary to decimal conversion An Internet address, known as an IP address for “Internet Protocol” is comprised of four binary octets, making it a 32-bit address. IP addresses, difficult for humans to read in binary format, are often converted to “dotted decimal format” To convert the 32-bit binary address to dotted decimal format, divide the address into four 8-bit octets and then convert each octet to a decimal number. Each octet will have one of 256 values (0 through 255) 192.48.29.253 (Example of an IP address in dotted decimal form)

IP address conversion Convert the following 32-bit Internet address into dotted decimal format: 01011110000101001100001111011100 1) Divide the IP address into four octets 01011110 00010100 11000011 11011100 2) Convert each binary octet into a decimal number 01011110 = 64+16+8+4+2 = 94 00010100 = 16+4 = 20 11000011 = 128+64+2+1 = 195 11011100 = 128+64+16+8+4 = 220 3) Write out the decimal values separated by periods 94.20.195.220

IPv4 to IPv6 The number of IP addresses provided by a 32-bit code (IPv4) is insufficient for the Internet’s current growth trajectory How many different addresses does a 32-bit number provide? 232 = 4,294,967,296 How can we be running short? Rapid global diffusion Rapid proliferation of wireless devices that require an IP address Voice over IP will only increase the shortage Is there a solution? IPv6 is going to increase the address space to 128 bits How many addresses will that provide? Short term work-arounds like Network Address Translation have helped stall the need to migrate to IPv6, and many predict the transition will be a rough one.

The Domain Name System We would go crazy if we would have to remember the IP addresses of all the web sites that we wanted to visit The Domain Name System translates between domain names and IP addresses of devices connected to the Internet A domain name (a part of the URL) is a unique alphanumeric name such as gmu.edu The top level domain name is edu and the secondary level domain name is gmu in the above example (there could be up to 127 levels, but more than 4 is rare)

Examples of top level domains Generic top level domains .com .biz .info .edu .mil .net, etc. Country codes (2 character codes) .jp, .sw, .us, etc.

Translation Between domain Names and IP Addresses DNS IP ADDRESSES DOMAIN NAMES Every device connected has a unique 32-bit address Human Readable cnn.com DNS Translation Between domain Names and IP Addresses Every device connected has an alphanumeric address Machine Readable e.g. 151.196.19.22 IP address and domain name allocation requires central administration to avoid duplication Previously administered by U.S. government contract (NSI) In 1998, technical coordination assigned to ICANN (Internet Corporation for Assigned Names and Numbers).

How DNS works When you type a URL into the address portion of your browser, the browsers’ first task is to convert the domain name into an IP address so that it can send a request to the appropriate web server at that IP address for the web page that you are requesting To accomplish this task, the browser interacts with a name server, a machine that maintains lists to translate the domain names into IP addresses Once the browser receives the IP address from the name server, it sends a request for the web page that you are requesting Let us retrieve the IP address of the name server that we are using…