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CSc 4370/6370: Web Programming Summer 2012

CSc 4370/6370: Web Programming Summer 2012. Course goals: understand the technology and protocols underlying the World Wide Web become familiar with common tools and techniques for developing Web-based applications, both client-side and server-side

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CSc 4370/6370: Web Programming Summer 2012

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  1. CSc 4370/6370: Web ProgrammingSummer 2012 • Course goals: • understand the technology and protocols underlying the World Wide Web • become familiar with common tools and techniques for developing Web-based applications, both client-side and server-side • develop a working knowledge of HTML, JavaScript, Perl and PHP as languages for developing Web applications

  2. Reasonable Questions • What is the World Wide Web? • Is it the same thing as the Internet? • Who invented it? • How old is it? • How does it work? • What kinds of things can it do? • What does it have to do with programming?

  3. Web  Internet • Internet : a physical network connecting millions of computers using the same protocols for sharing/transmitting information (TCP/IP) • in reality, the Internet is a network of smaller networks • World Wide Web: a collection of interlinked multimedia documents that are stored on the Internet and accessed using a common protocol (HTTP) Key distinction: Internet is hardware; Web is software along with data, documents, and other media Many other Internet-based applications exist e.g., email, telnet, ftp, usenet, instant messenging services, file-sharing services, …

  4. (A Very Brief) History of the Internet • the idea of a long-distance computer network traces back to early 60's • Joseph Licklider at M.I.T. (a “time-sharing network of computers”) • Paul Baran at Rand (tasked with designing a “survivable” communications system that could maintain communication between end points even after damage from a nuclear attack) • Donald Davies at National Physics Laboratory in U.K. • in particular, the US Department of Defense was interested in the development of distributed, decentralized networks • survivability (i.e., network still functions despite a local attack) • fault-tolerance (i.e., network still functions despite local failure) contrast with phone system, electrical system which are highly centralized services • in 1969, Advanced Research Project Agency funded the ARPANET • connected computers at UC Los Angeles, UC Santa Barbara, Stanford Research Institute, and University of Utah • allowed researchers to share data, communicate • 56Kb/sec communications lines (vs. 110 b/sec over phone lines)

  5. Internet Growth • throughout the 70's, the size of the ARPANET doubled every year • e-mail introduced in 1972 • decentralization made adding new computers easy • TCP/IP developed in the mid 1970s for more efficient packet routing • migration of ARPANET to TCP/IP completed 1 January, 1983 • ~1000 military & academic host computers connected by 1984 • in 80‘s, U.S. government took a larger role in Internet development • created NSFNET for academic research in 1986 • ARPANET was retained for military & government computers • by 90's, Internet connected virtually all colleges & universities • businesses and individuals also connecting as computing costs fell • ~1,000,000 computers by 1992 • in 1992, control of the Internet was transferred to a non-profit org • Internet Society: Internet Engineering Task Force Internet Architecture Board Internet Assigned Number Authority World-Wide-Web Consortium (W3C) . . .

  6. Internet Growth (cont.) Internet has exhibited exponential growth, doubling in size every 1-2 years (stats fromInternet Software Consortium) 2,110,765,810 Internet users (approx. 30.5% of the world’s population) (http://www.internetworldstats.com/top20.htm) (June 30, 2011) United Kingdom has 51.4 million users (approx. 82% of the population)

  7. (A Very Brief) History of the Web • the idea of hypertext (cross-linked and inter-linked documents) traces back to Vannevar Bush in the 1940's • online hypertext systems began to be developed in 1960's • e.g., Ted Nelson and Andy van Dam's Hypertext Editing System (HES), Doug Englebert's NLS (oN-Line System) • in 1987, Apple introduced HyperCard (a hypermedia system that predated the WWW) • in 1989, Tim Berners-Lee at the European Particle Physics Laboratory (CERN) designed a hypertext system for linking documents over the Internet • designed a (Non-WYSIWYG) language for specifying document content • evolved into HyperText Markup Language (HTML) • designed a protocol for downloading documents and interpreting the content • evolved into HyperText Transfer Protocol (HTTP) • implemented the first browser -- text-based, no embedded media • the Web was born!

  8. History of the Web (cont.) • the Web was an obscure, European research tool until 1993 • in 1993, Marc Andreessen and Eric Bina (at the National Center for Supercomputing Applications, a unit of the University of Illinois) developed Mosaic, one of the early graphical Web browsers that popularized the WWW for the general public (Erwise was the first one, ViolaWWW the second) • the intuitive, clickable interface helped make hypertext accessible to the masses • made the integration of multimedia (images, video, sound, …) much easier • Andreessen left NCSA to found Netscape in 1994 • cheap/free browser further popularized the Web (75% market share in 1996) • in 1995, Microsoft came out with Internet Explorer • Opera web browser released in 1996 • Netscape bought by AOL in 1998 for US$4.2 billion in stock • Firefox web browser, version 1.0, released in 2004 • Google Chrome released in 2008 • today, the Web is the most visible aspect of the Internet

  9. Web Growth IE, Opera Netscape Mosaic • Stats from • Netcraft Web Server Survey. Google Chrome Firefox Safari A 2011 estimate suggested at 12-15 billion Web pages! (WorldWideWebSize.com)

  10. Web growth (cont.) • Internet addresses are used to identify computers on the internet. • Internet Protocol version 4 (IPv4) was first defined in 1981 and is still in use today, but this uses a 32-bit number to specify addresses. • Projections indicate that the number of IP addresses under IPv4 is due to run out in 2011, meaning that there will be more than 4.29 billion addresses that are in use (or reserved). • IPv6 had been deployed since the mid-2000s and uses 128 bit addresses, but also redesigned to allow more efficient routing, network aggregation, and ease of network reconfiguration.

  11. TCP/IP • Protocol for communication between computers is called TCP/IP: Transmission Control Protocol / Internet Protocol. • Information is transmitted by packet switching: data is broken up into packets, which are then passed from one computer to the next until they reach their destination. This is in contrast to the phone system, which creates a temporary direct link between communicating parties. Packet switching is robust since it can route around disabled nodes and use multiple paths. But there is no guarantee packets will be delivered within any given time.

  12. IP Address • IP requires each connected computer to have a unique address: a number such as 150.108.64.52. • Clients such as home computers are generally assigned IP addresses dynamically (by DHCP) from a pool of available numbers upon connecting to the Internet. • Server computers have static IP addresses. • Computers can also be identified by names. Domain Name Service (DNS) translates between name and number. • Internet names have two parts: a host name (the first component) and a domain (everything else). Example: cs.gsu.edu/lhenry

  13. TCP/IP con’t • Various protocols are built on top of TCP/IP: • E-mail (SMTP) • File Transfer Protocol (FTP) • Drive and printer sharing protocols, e.g. NetBIOS • Network Time Protocol (NTP) for setting computers' clocks. • Hypertext Transport Protocol (HTTP): the World-Wide Web • TCP requires computers to connect via numbered ports defined by the network software applications. Each protocol uses a different port. For instance, Web transactions usually use port 80. • Note that the Web is just one of many protocols using the Internet.

  14. Static vs. Dynamic pages • most Web pages are static • contents (text/links/images) are the same each time it is accessed e.g., online documents, most homepages HyperText Markup Language (HTML) is used to specify text/image format • as the Web continues to move towards more and more online services and e-commerce continues to grow, Web pages must also provide dynamic content • pages can be fluid, changeable (e.g., rotating banners) • must be able to react to the user's actions, request and process info, tailor services e.g., amazon.com • this course is about applying your programming skills to the development of dynamic Web pages and applications

  15. Client Server • Invented around 1990 by Tim Berners-Lee, a programmer at CERN (a physics lab in Geneva) to simplify sharing of information between research groups. • Designed to be easy to program, easy to use, flexible and decentralized. • Based on client-server model: • client computer runs a browser (e.g. Internet Explorer or Netscape) that requests information from a server • server computer runs a web server (e.g. Microsoft Internet Information Server or Apache Web Server) that listens for requests and sends back information

  16. Client-Side Programming • can download program with Web page, execute on client machine • simple, generic, but sometimes insecure • JavaScript • a scripting language for Web pages, developed by Netscape in 1995 • uses a C++/Java-like syntax, so familiar to programmers, but simpler • good for adding dynamic features to Web page, controlling forms and GUI • requires users to have this technology enabled on their browsers • see http://www.w3schools.com/js/ • Java applets • can define small, special-purpose programs in Java called applets • provides (almost) full expressive power of Java (but with more overhead) • good for more complex tasks or data heavy tasks, such as graphics • seehttp://java.sun.com/applets/

  17. Client-Server Model request response Internet Server Client

  18. Server-Side Programming • Common Gateway Interface (CGI) programming • programs can be written to conform to the CGI • when a Web page submits, data from the page is sent as input to the CGI program • CGI program executes on server, sends its results back to browser as a Web page • good if computation is large/complex or requires access to private data • we will discuss CGI programming using Perl, but other languages possible as well (such as Python, Ruby, etc.) • can store and execute program on Web server, link from Web page • more complex, requires server privileges, but can still be (mostly) secure • Active Server Pages (ASP), Java Servlets, PHP, Server Side Includes, Ajax • some of these are vendor-specific alternatives to CGI (such as Microsoft’s ASP) • provide many of the same capabilities as CGI programs but using HTML-like tags • some of these technologies might require functionality to be enabled in the client’s browser (e.g. Ajax generally requires the use of Javascript combined with PHP or some other server-based programming component)

  19. @ Web Programming Elements • HTML: Hyper-Text Markup Language. Provides formatting of text and graphics, as well as links between documents. • CSS: Cascading Style Sheets. Provide more powerful and detailed control of style and formatting. • JavaScript: a programming language for client-side scripting, to provide dynamically changing content. • Java: a more powerful programming language for web applications on the client that can also run independently of the browser. • Server-side scripting and programming (SHTML, ASP, PHP, CGI). These permit access to databases and other information located on the server.

  20. Exercise • pick some of your favorite Web sites and try to identify • static components? • dynamic components? • client-side? JavaScript? Java applet? • server-side? CGI? ASP? e.g., www.amazon.com , http://www.ebay.com/ FYI gmail (uses Ajax for lots of its dynamic functions)

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