itc242 – introduction to data communications internet based applications
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ITC242 – Introduction to Data Communications Internet Based Applications. Last Week. TCP/IP and OSI Describe the definition of a protocol; Discuss the need and benefits of using protocol architectures; Describe the TCP/IP protocol architecture Describe the OSI reference model. - PowerPoint PPT PresentationTRANSCRIPT
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ITC242 – Introduction to Data Communications
Internet Based Applications
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Last Week
TCP/IP and OSI
• Describe the definition of a protocol;
• Discuss the need and benefits of using protocol architectures;
• Describe the TCP/IP protocol architecture
• Describe the OSI reference model.
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Topic 6 Internet Based Applications
Learning Objectives• describe electronic mail and the basic
function of SMTP• explain the need for MIME• explain the role of HTTP in the operation
of the Web• describe the functions of proxies,
gateways and tunnels in HTTP• recognise the role of SIP
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Question
Which layer of OSI we will study in this class?
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Layering: The OSI Model
Session
Network
Link
PhysicalPhysicalPhysical
Application
Presentation
Transport
Network
Link Link
Network
Transport
Session
Presentation
Application
Network
Link
Physical
Peer-layer communication
layer-to-layer communication
Router Router
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Electronic Mail Features
• Message Preparation– Word processing– Annotation
• Message Sending– User directory– Timed delivery– Multiple addressing– Message priority– Status information– Interface to other facilities
• Message Receiving– Mailbox scanning– Message selection– Message notification– Message reply– Message rerouting
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Public vs Private Email
• Public– Provided by a 3rd party vendor– Available over one or more public networks– Examples: MCI Mail, AOL
• Private– Integrated with user’s computer equipment– Often part of an integrated tool, eg PROFS– Used for internal messaging
• Internet mail does not fit into either of these categories; it is a transfer mechanism rather than a contained system
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Electronic Mail
Three major components: • user agents • mail servers • simple mail transfer protocol:
SMTP
User Agent• a.k.a. “mail reader”• composing, editing, reading mail
messages• e.g., Eudora, Outlook, elm,
Mozilla Thunderbird• outgoing, incoming messages
stored on server
user mailbox
outgoing message queue
mailserver
useragent
useragent
useragent
mailserver
useragent
useragent
mailserver
useragent
SMTP
SMTP
SMTP
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Electronic Mail: mail servers
Mail Servers • mailbox contains
incoming messages for user
• message queue of outgoing (to be sent) mail messages
• SMTP protocol (see the next)
mailserver
useragent
useragent
useragent
mailserver
useragent
useragent
mailserver
useragent
SMTP
SMTP
SMTP
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SMTP [RFC 2821]
• uses TCP to reliably transfer email message from client to server, port 25
• direct transfer: sending server ( “client”) to receiving server( “server”)
• three phases of transfer– handshaking (greeting)– transfer of messages– closure
• command/response interaction– commands: ASCII text– response: status code and phrase
• messages must be in 7-bit ASCII
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Scenario: Alice sends message to Bob
1) Alice uses UA to compose message and “to” [email protected]
2) Alice’s UA sends message to her mail server; message placed in message queue
3) Client side of SMTP opens TCP connection with Bob’s mail server
4) SMTP client sends Alice’s message over the TCP connection
5) Bob’s mail server places the message in Bob’s mailbox
6) Bob invokes his user agent to read message
useragent
mailserver
mailserver user
agent
1
2 3 4 56
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Sample SMTP interaction S: 220 hamburger.edu C: HELO crepes.fr S: 250 Hello crepes.fr, pleased to meet you C: MAIL FROM: <[email protected]> S: 250 [email protected]... Sender ok C: RCPT TO: <[email protected]> S: 250 [email protected] ... Recipient ok C: DATA S: 354 Enter mail, end with "." on a line by itself C: Do you like ketchup? C: How about pickles? C: . S: 250 Message accepted for delivery C: QUIT S: 221 hamburger.edu closing connection
SMIT Client: CSMIT server: S
Status code: 220 Service Ready250 OK421 Service Not Available
Sending message
Commands: HELO(HELLO), MAIL FROM,RCPT TO, DATA, QUIT
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SMTP Connection Setup
• Sender opens TCP connection to receiver• Receiver acknowledges connection with
“220 Service Ready” or “421 Service Not Available”
• If connection is made, sender identifies itself with the “HELO” command
• Receiver accepts identification with “250 OK”
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SMTP Mail Transfer
• MAIL command identifies originator, provides reverse path for error reporting
• RCPT commands identify recipient(s) for message– Receiver has several positive or negative responses
to RCPT– Sender will not send message until it is sure at least
one copy can be delivered
• DATA command transfers message
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SMTP Connection Closing
• Sender sends a QUIT command to initiate TCP close operation
• Receiver sends a reply to the QUIT command, then initiates its own close
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Single System E-Mail
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Single System E-Mail
• Only allows users of a shared system to exchange messages
• Each user has unique identifier and mailbox
• Sending a message simply puts it into recipients’ box
• Example: AOL
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Multiple Systems E-Mail
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Multiple Systems E-Mail
• Distributed system enables mail servers to connect over a network to exchange mail
• Functions split– User agent handles preparation, submission, reading,
filing, etc– Transfer agent receives mail from user, determines
routing, communicates with remote systems
• Interconnection requires standards
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Request For Comments
• Form the basis of the Internet's technical documentation. • Conceptually, the Internet as a layered series of
protocols, each is documented by one or more RFCs. • RFCs don’t change. Updates documented by new RFCs. • Not all RFCs document protocols; Some for discussion,
informational purposes, April Fools' RFCs distinguished by their date.
• There are more than 2000 RFCs in existence, dating back to ARPANET in the 1970s.
• Most RFCs are available as large text files, with graphics made out of typewriter characters.
http://www.freesoft.org/CIE/RFC/
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Basic E-Mail Operation
• User creates message with user agent program– Text includes RFC 822 header and body of
message– List of destinations derived from header
• Messages are queued and sent to SMTP sender program running on a host
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SMTP Mail Flow
• SMTP server transmits messages to appropriate hosts via TCP– Multiple messages to same host can be sent on one
connection– Errors handling necessary for faulty addresses and
unreachable hosts
• SMTP protocol attempts to provide error-free transmission, but does not provide end-to-end acknowledgement
• SMTP receiver accepts messages, places it in mailbox or forwards
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Mail access protocols
• SMTP: delivery/storage to receiver’s server• Mail access protocol: retrieval from server
– POP: Post Office Protocol [RFC 1939]• authorization (agent <-->server) and download
– IMAP: Internet Mail Access Protocol [RFC 1730]• more features (more complex)• manipulation of stored msgs on server
– HTTP: gmail, Hotmail, Yahoo! Mail, etc.
useragent
sender’s mail server
useragent
SMTP SMTP accessprotocol
receiver’s mail server
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RFC 822
• Defines format for text messages via electronic mail
• Used by SMTP as accepted mail format
• Specifies both envelope and contents
• Includes a variety of headers that can be included in the message header lines
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Mail message format
SMTP: protocol for exchanging email msgs
RFC 822: standard for text message format:
• header lines, e.g.,– To:– From:– Subject:
different from SMTP commands!
• body– the “message”, ASCII
characters only
header
body
blankline
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SMTP: final words
• SMTP uses persistent connections• SMTP requires message (header &
body) to be in 7-bit ASCII• SMTP server uses CRLF.CRLF to
determine end of message
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Question
• Why we are able to send emails with attached image files?
RFC 822 was defined for sending ordinary ASCII text, but not sufficiently rich for multimedia messages, or for carrying non-ASCII text formats( for example, characters used by language other than English)
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Limitations of SMTP and RFC822
• Cannot transmit executables or binary files without conversion into text through non-standard programs (e.g. UUENCODE)
• Cannot transmit diacritical marks• Transfers limited in size• Gateways do not always map properly between
EBCDIC and ASCII• Cannot handle non-text data in X.400 messages• Not all SMTP implementations adhere
completely to RFC821 (tabs, truncation, etc)
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MIME (Multipurpose Internet Mail Extensions)
• Intended to resolve problems with SMTP and RFC822
• Specifies five new header fields, providing info about body of message
• Defines multiple content formats
• Defines encodings to enable conversion of any type of content into transferable form
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MIME Header Fields
• MIME-Version: Indicates compliance with RFCs 1521 and 1522
• Content-Type: Describes data in sufficient detail for receiver to pick method for representation
• Content-Transfer-Encoding: Indicates type of transformation used to represent content
• Content-ID: Used to uniquely identify MIME entities
• Content-Description: Plain text description for use when object is not readable
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Message format: multimedia extensions
• MIME: multimedia mail extension, RFC 2045, 2056
• additional lines in msg header declare MIME content type
From: [email protected] To: [email protected] Subject: Picture of yummy crepe. MIME-Version: 1.0 Content-Transfer-Encoding: base64 Content-Type: image/jpeg
base64 encoded data ..... ......................... ......base64 encoded data
multimedia datatype, subtype,
parameter declaration
method usedto encode data
MIME version
encoded data
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HTTP Overview
• Stateless protocol– TCP connection terminated as soon as
transaction completes
• Flexible in format handling
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Web and HTTP
First some jargon• Web page consists of objects• Object can be HTML file, JPEG image, Java applet, audio file,…• Web page consists of base HTML-file which includes several
referenced objects• Each object is addressable by a URL• Example URL:
www.someschool.edu/someDept/pic.gif
host name path name
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HTTP overviewHTTP: hypertext transfer
protocol• Web’s application layer
protocol
• client/server model
– client: browser that requests, receives, “displays” Web objects
– server: Web server sends objects in response to requests
• HTTP 1.0: RFC 1945
• HTTP 1.1: RFC 2068
PC runningExplorer
Server running
Apache Webserver
Mac runningNavigator
HTTP request
HTTP request
HTTP response
HTTP response
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HTTP overview (continued)Uses TCP:• client initiates TCP
connection (creates socket) to server, port 80
• server accepts TCP connection from client
• HTTP messages (application-layer protocol messages) exchanged between browser (HTTP client) and Web server (HTTP server)
• TCP connection closed
HTTP is “stateless”• server maintains no
information about past client requests
Protocols that maintain “state” are complex!
• past history (state) must be maintained
• if server/client crashes, their views of “state” may be inconsistent, must be reconciled
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HTTP connections
Nonpersistent HTTP• At most one object is
sent over a TCP connection.
• HTTP/1.0 uses nonpersistent HTTP
Persistent HTTP• Multiple objects can
be sent over single TCP connection between client and server.
• HTTP/1.1 uses persistent connections in default mode
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Nonpersistent HTTPSuppose user enters URL www.someSchool.edu/someDepartment/home.index
1a. HTTP client initiates TCP connection to HTTP server (process) at www.someSchool.edu on port 80
2. HTTP client sends HTTP request message (containing URL) into TCP connection socket. Message indicates that client wants object someDepartment/home.index
1b. HTTP server at host www.someSchool.edu waiting for TCP connection at port 80. “accepts” connection, notifying client
3. HTTP server receives request message, forms response message containing requested object, and sends message into its socket
time
(contains text, references to 10
jpeg images)
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Nonpersistent HTTP (cont.)
5. HTTP client receives response message containing html file, displays html. Parsing html file, finds 10 referenced jpeg objects
6. Steps 1-5 repeated for each of 10 jpeg objects
4. HTTP server closes TCP connection.
time
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Non-Persistent HTTP: Response time
Definition of RTT: time to send a small packet to travel from client to server and back.
Response time:• one RTT ( round-trip
time) to initiate TCP connection
• one RTT for HTTP request and first few bytes of HTTP response to return
• file transmission timetotal = 2RTT+transmit time
time to transmit file
initiate TCPconnection
RTT
requestfile
RTT
filereceived
time time
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Persistent HTTP
Nonpersistent HTTP issues:• requires 2 RTTs per object• OS overhead for each TCP connection• browsers often open parallel TCP connections to fetch
referenced objects
Persistent HTTP• server leaves connection open after sending response
• subsequent HTTP messages between same client/server sent over open connection
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HTTP request message
• two types of HTTP messages: request, response• HTTP request message:
– ASCII (human-readable format)
GET /somedir/page.html HTTP/1.1Host: www.someschool.edu User-agent: Mozilla/4.0Connection: close Accept-language:fr
(extra carriage return, line feed)
request line(GET, POST,
HEAD commands)
header lines
Carriage return, line feed
indicates end of message
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Uploading form input
Post method:• Web page often
includes form input• Input is uploaded to
server in entity body
URL method:• Uses GET method• Input is uploaded in
URL field of request line:
www.somesite.com/animalsearch?monkeys&banana
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Method types
HTTP/1.0• GET• POST• HEAD
– asks server to leave requested object out of response
HTTP/1.1• GET, POST, HEAD• PUT
– uploads file in entity body to path specified in URL field
• DELETE– deletes file specified in
the URL field
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HTTP response message
HTTP/1.1 200 OK Connection closeDate: Thu, 06 Aug 1998 12:00:15 GMT Server: Apache/1.3.0 (Unix) Last-Modified: Mon, 22 Jun 1998 …... Content-Length: 6821 Content-Type: text/html data data data data data ...
status line(protocol
status codestatus phrase)
header lines
data, e.g., requestedHTML file
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HTTP response status codes
200 OK– request succeeded, requested object later in this message
301 Moved Permanently– requested object moved, new location specified later in this
message (Location:)
400 Bad Request– request message not understood by server
404 Not Found– requested document not found on this server
505 HTTP Version Not Supported
In first line in server->client response message.
A few sample codes:
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HTTP Operation
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HTTP Intermediate Systems
• Proxy– Forwarding agent– Security intermediary– Different versions of HTTP
• Gateway– Security intermediary– Non-HTTP server
• Tunnel– Relay point between two TCP connections
• Cache– Facility storing previous requests and responses
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Intermediate System Examples
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SMTP and HTTP
• HTTP: pull• SMTP: push
• both have ASCII command/response interaction, status codes
• HTTP: each object encapsulated in its own response msg
• SMTP: multiple objects sent in multipart msg
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Session Initiation Protocol (SIP)
• Defined in RFC 3261• Manages real-time sessions over IP data network• Intended to enable Internet telephony/VoIP• Based on HTTP-like request/response transaction
model• Five facets
– User location– User availability– User capabilities– Session setup– Session management
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SIP Components and Protocols
• Client/server elements– Client sends/receives SIP messages– Includes user agents, proxies
• Network elements– User agent (client/UAC, server/UAS)– Redirect server– Proxy server– Registrar– Location service
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SIP Component Illustration
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Session Description Protocol
• Media Streams
• Addresses
• Ports
• Payload types
• Start and stop times
• Originator
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Summary
• SMTP - transmits messages to appropriate hosts via TCP, attempts to provide error-free transmission.
• MIME - Intended to resolve problems with SMTP, provides info about body of message, defines multiple content formats, and encodings
• HTTP - Stateless protocol, flexible format handling, Proxy, Gateway, Tunnel, Cache
• SIP - Manages real-time sessions over IP, enable Internet telephony/VoIP, HTTP-like request/response transaction model
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Topic 7 – Client Server and Intranet Computing
Learning Objectives
• describe the features, characteristics and architecture of client/server applications; and
• define intranets and extranets.
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What is Client/Server?
• Client• Server• Network• How is client/server different from other
distributed computing?– Heavy reliance on user-friendly applications– Emphasis on centralizing databases and
management functions– Commitment to openness/modularity– Networking fundamental to operation
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Client-Server Environment
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Why is Client-Server Different?
• Emphasis on user-friendly client applications
• Focus on access to centralized databases
• Commitment to open and modular applications
• Networking is fundamental to the organization
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Client/Server Applications
• Emphasis on GUI for users
• Database Example– Database on server, applications for access
on client, “glue” (like SQL) enables requests)– Application logic can be client-only, or split
between client and server
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Intranets
• Implementation of internet-based client/server technology within an organization, rather than for global connectivity
• Immensely successful in corporate computing contexts
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Advantages of Intranets
• Rapid prototyping• Scales effectively• Little training required• Can be implemented
on variety of systems• Open architecture
allows interaction across platforms
• Supports a range of distributed servers
• Allows integration of legacy systems on client and server side
• Supports a range of media types
• Inexpensive to implement
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The Intranet Web
• Web Content– The web can be used to effectively distribute content
in a way that requires no new training for end-users
• Web/Database Connectivity– Multiple tools exist to serve as middleware between
web servers and data sources
• Electronic Mail• Network News
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Web/Database Connectivity
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Web/Database Connectivity
• Advantages– Ease of administration– Deployment– Development speed– Flexible information
presentation
• Disadvantages– Limited functionality– Stateless operation
makes tracking difficult
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Intranet Disadvantages
• Long development cycles• Difficulty in partitioning applications, and
modifying based on user feedback• Effort in distributing upgrades to clients• Difficult in scaling servers to respond to
increased load• Continuous requirement for more powerful
desktop machines
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Other Intranet Technologies
• Electronic Mail– Closed internal mail systems (delivery
verification, etc)– Internal mailing lists
• Network news (USENET)– Can be adopted for internal intranet uses
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The Extranet Web
• Extends the intranet concept to provide information and services to selected outside populations, such as customers and suppliers
• Enables the sharing of information between companies
• A TCP/IP enabled form of EDI
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Advantages of Extranets
• Reduced costs
• More marketable products
• Increased productivity
• Enhanced profits
• Reduced inventories
• Faster time to market
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Methods for Converting Intranets to Extranets
• Long-distance dial-up access• Internet access to intranet with security• Internet access to an external server that
duplicates some of a company’s intranet data• Internet access to an external server that
originates database queries to internal servers• Virtual private network
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Summary
• Client/server - user-friendly client applications, centralized databases, open and modular applications, the network is fundamental
• Intranet - internet-based client/server technology within an organization, immensely successful
• Extranets – Extend intranet concept to outside community, e.g customers and suppliers, enables sharing of information between companies, TCP/IP enabled form of EDI.