HTTP is a request-response protocol used to transfer web pages over the internet. It uses a client-server model where browsers make requests to web servers, which respond with web pages. Requests use methods like GET and POST, while responses use status codes like 200 and 404. HTTP connections can be persistent, allowing multiple requests over the same connection. Cookies and caching help maintain state and improve performance. Content distribution networks further improve scalability using cached copies distributed geographically.
The purpose of this presentation is to give viewers a basic introduction to web and http concepts. The images in the ppt are sourced from google images and are not my own.
The purpose of this presentation is to give viewers a basic introduction to web and http concepts. The images in the ppt are sourced from google images and are not my own.
This ppt will give you information about what is http protocol, who had developed it, how it works, http request and response, features, advantages, disadvantages and brief information about world wide web.
CNIT 129S - Ch 3: Web Application TechnologiesSam Bowne
For a college course at CCSF taught by Sam Bowne.
https://samsclass.info/129S/129S_S18.shtml
Based on "The Web Application Hacker's Handbook: Finding and Exploiting Security Flaws 2nd Edition", by Dafydd Stuttard , Marcus Pinto; ISBN-10: 1118026470
Internet Technology Lectures
HTTP & HTTPS
Lecturer: Saman M. Almufti / Kurdistan Region, Nawroz University
facebook: https://www.facebook.com/saman.malmufti
YouTube link: https://youtu.be/I8QOWD_GH5g
This ppt will give you information about what is http protocol, who had developed it, how it works, http request and response, features, advantages, disadvantages and brief information about world wide web.
CNIT 129S - Ch 3: Web Application TechnologiesSam Bowne
For a college course at CCSF taught by Sam Bowne.
https://samsclass.info/129S/129S_S18.shtml
Based on "The Web Application Hacker's Handbook: Finding and Exploiting Security Flaws 2nd Edition", by Dafydd Stuttard , Marcus Pinto; ISBN-10: 1118026470
Internet Technology Lectures
HTTP & HTTPS
Lecturer: Saman M. Almufti / Kurdistan Region, Nawroz University
facebook: https://www.facebook.com/saman.malmufti
YouTube link: https://youtu.be/I8QOWD_GH5g
Welcome to WIPAC Monthly the magazine brought to you by the LinkedIn Group Water Industry Process Automation & Control.
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Industrial Training at Shahjalal Fertilizer Company Limited (SFCL)MdTanvirMahtab2
This presentation is about the working procedure of Shahjalal Fertilizer Company Limited (SFCL). A Govt. owned Company of Bangladesh Chemical Industries Corporation under Ministry of Industries.
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Explore the innovative world of trenchless pipe repair with our comprehensive guide, "The Benefits and Techniques of Trenchless Pipe Repair." This document delves into the modern methods of repairing underground pipes without the need for extensive excavation, highlighting the numerous advantages and the latest techniques used in the industry.
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Sachpazis:Terzaghi Bearing Capacity Estimation in simple terms with Calculati...Dr.Costas Sachpazis
Terzaghi's soil bearing capacity theory, developed by Karl Terzaghi, is a fundamental principle in geotechnical engineering used to determine the bearing capacity of shallow foundations. This theory provides a method to calculate the ultimate bearing capacity of soil, which is the maximum load per unit area that the soil can support without undergoing shear failure. The Calculation HTML Code included.
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This paper presents the design and construction of hydroelectric dams from the hydrologist’s survey of the valley before construction, all aspects and involved disciplines, fluid dynamics, structural engineering, generation and mains frequency regulation to the very transmission of power through the network in the United Kingdom.
Author: Robbie Edward Sayers
Collaborators and co editors: Charlie Sims and Connor Healey.
(C) 2024 Robbie E. Sayers
2. Review of concepts
• Layering and modularity; application layer
• 4-tuple (IPs, ports, IPd, portd), socket
• Client-server, peer to peer architectures
Application
Transport
Network
Host-to-Net
…
FTP HTTP SIP RTSP
TCP UDP
IP
802.11 X.25 ATM
HTTPS
3. The Web: Humble origins
Tim Berners-Lee: a way to
manage and access documents
at CERN research lab
Info containing links to other info,
accessible remotely, through a
standardized mechanism.
His boss is said to have written
on his proposal:
“vague, but exciting”
4. 4
Web and HTTP: Some terms
• HTTP stands for “HyperText Transfer Protocol”
• A web page consists of many objects
• Object can be HTML file, JPEG image, video stream chunk, audio file,…
• Web page consists of base HTML-file which includes several referenced
objects.
• Each object is addressable by a uniform resource locator (URL)
• sometimes also referred to as uniform resource identifier (URI)
• Example URL:
www.cs.rutgers.edu/~sn624/index.html
host name path name
6. 6
HTTP: hypertext transfer
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 running
Chrome
Web Server
e.g., Apache HTTP
server, nginx, etc.
Mac running
Safari
HTTP overview
7. Client server connection
Hostname IP address
Cs.Rutgers.edu 10.0.1.2
7
Host name
IP Address
DNS
HTTP messages
HTTP application
typically
associated with
port 80
8. 8
HTTP messages: request message
• ASCII (human-readable format)
GET /352/syllabus.html HTTP/1.1
Host: www.cs.rutgers.edu
User-agent: Mozilla/4.0
Connection: close
Accept-language:en
(extra carriage return, line feed)
request line
(GET, POST,
HEAD commands)
Header lines
Carriage return,
line feed
indicates end
of message
10. 10
• GET
• Get the resource specified in the
requested URL. URL may refer to a
data-handling process
• POST
• Send entities (specified in the entity
body) to a data-handling process at the
requested URL
• HEAD
• Asks server to leave requested object
out of response, but send the rest of
the response
• PUT
• Update a resource at the requested
URL with the new entity specified in
the entity body
• DELETE
• Deletes file specified in the URL
• ... and other methods.
HTTP method types
11. Difference between POST and PUT
• POST: the URL of the request
identifies the resource that
processes the entity body
• PUT: the URL of the request
identifies the resource that is
contained in the entity body
https://tools.ietf.org/html/rfc2616
12. Difference between HEAD and GET
• GET: return the requested
resource in the entity body of
the response along with
response headers (we’ll see
these shortly)
• HEAD: return all the response
headers in the GET response,
but without the resource in
the entity body
https://tools.ietf.org/html/rfc2616
13. 13
POST method:
• Web page often includes form
input
• Input is uploaded to server in
entity body
• Posted content not visible in
the URL
• Free form content (ex: images)
can be posted since entity body
interpreted as data bytes
GET method:
• Entity body is empty
• Input is uploaded in URL field of request
line
• Example:
• http://site.com/form?first=jane&last=austen
Uploading form input: GET and POST
16. 16
HTTP message: response message
HTTP/1.1 200 OK
Connection: close
Date: 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 code
status phrase)
response
header
lines
data, e.g., requested
HTML file in entity body
17. 17
200 OK
• request succeeded, requested object later in this message
301 Moved Permanently
• requested object moved, new location specified later in this
message (Location:)
403 Forbidden
• Insufficient permissions to access the resource
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:
HTTP response status codes
18. 18
1. Telnet to your favorite Web server:
Opens TCP connection to port 80
(default HTTP server port).
Anything typed in sent
to port 80 at web.mit.edu
telnet web.mit.edu 80
2. Type in a GET HTTP request:
GET / HTTP/1.1
Host: web.mit.edu
By typing this in (hit carriage
return twice), you send
this minimal (but complete)
GET request to HTTP server
3. Look at response message sent by HTTP server!
Try sending a HTTP request yourself!
23. 23
Non-persistent 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
TCP is a kind of reliable communication service provided by the transport layer. It
requires the connection to be “set up” before data communication.
HTTP connections
24. 24
Suppose user
visits a page
with text and 10
images.
1a. HTTP client initiates TCP
connection to HTTP server
2. HTTP client sends HTTP
request message
1b. HTTP server at host “accepts”
connection, notifying client
3. HTTP server receives request
message, replies with response
message containing requested
object
time
Non-persistent HTTP
25. 25
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
Non-persistent HTTP (contd.)
26. 26
Round Trip Time (RTT): time to send
a packet from client to server and
back.
• Sum of propagation, transmission,
and queueing delays along both
directions.
Response time:
• One RTT to initiate TCP connection
• One RTT for HTTP request and first
few bytes of HTTP response to
return
• File transmission time
total = 2RTT + file transmission time
time to
transmit
file
initiate TCP
connection
RTT
request
file
RTT
file
received
time time
Non-Persistent HTTP’s Response time
27. 27
5. HTTP client receives response
message containing html file,
displays html. Parsing html file,
finds 10 referenced jpeg objects
The 10 objects can be requested over
the same TCP connection.
i.e., save an RTT trying to open a new
TCP connection per object.
4. HTTP server sends a response.
Server keeps the TCP
connection alive.
time
Persistent HTTP: jumping to steps 4/5
28. 28
Non-persistent HTTP requires at least 2 RTTs per object.
• For each object: Open TCP connection; send HTTP request &
receive response
Persistent HTTP: since server leaves connection open after
sending response, subsequent HTTP messages between
same client/server sent over the open connection
Save one RTT per object relative to non-persistent HTTP
In both cases, browsers have a choice of opening multiple
parallel connections.
Persistent vs. Non-persistent
30. 30
So far, HTTP is “stateless”
• The server maintains no memory about past client requests
But state, i.e., memory, about the user at the server is
very useful!
• authorization
• shopping carts
• recommendations
• In general, user session state
HTTP: User data on servers?
31. 31
client server
http request msg + auth
http response +
Set-cookie: 1678
http request (no auth)
cookie: 1678
Personalized http
response
http request (no auth)
cookie: 1678
Personalized http
response
cookie-
specific
action
cookie-
specific
action
server
creates ID
1678 for user
Cookie file
Amazon: 1678
Cookie file
Amazon: 1678
Cookie file
Amazon: 1678
one week later:
Cookies: Keeping user memory
Netflix: 436
Netflix: 436
Netflix: 436
32. 32
Four components:
1. cookie header line of HTTP response message
2. cookie header line in HTTP request message
3. cookie file kept on user endpoint, managed by user’s
browser
4. back-end database maps cookie to user data at Web
endpoint
Client and server collaboratively track and remember the user’s
state.
How cookies work
33. 33
PSA: Cookies and Privacy
• The Internet would be unusable without cookies.
• However, cookies permit sites to learn a lot about
you, from your behaviors.
• E.g., which products, topics, images, etc. are you
most interested in?
• What demographic do you belong to? Where?
• What kinds of ads will you likely click on?
• Tracking networks correlate this info across sites
• You might reasonably be concerned about your
privacy when online.
• Disable and delete unnecessary cookies by default
• Use privacy-conscious browsers, websites, tools:
DuckDuckGo, Brave, AdBlock Plus.
35. 35
Web caches: Machines that remember web responses for a network
Why cache web responses?
• Reduce response time for client requests
• Reduce traffic on an institution’s access link
Caches can be implemented in the form of a proxy server
Web caches
36. 36
Web caching using a proxy server
GET foo.html
Web Server
(also called
origin server in
this context)
Clients
Proxy
Server
GET foo.html
Store foo.html
on receiving
response
• You can configure a HTTP
proxy on your laptop’s network
settings.
• If you do, your browser sends
all HTTP requests to the proxy
(cache).
• Hit: cache returns object
• Miss:
• cache requests object from origin
server
• caches it locally
• and returns it to client
The Internet
37. 37
• Conditional GET
guarantees cache content
is up-to-date while still
saves traffic and response
time whenever possible
• Date in the cache’s
request is the last time the
server provided in its
response header “last
modified”
cache server
HTTP request msg
If-modified-since:
<date>
HTTP response
HTTP/1.0
304 Not Modified
object
not
modified
HTTP request msg
If-modified-since:
<date>
HTTP response
HTTP/1.0 200 OK
<data>
object
modified
Web Caches: how does it look on HTTP?
38. 38
A global network of web caches
• Provisioned by ISPs and network operators
• Or content providers, like Netflix, Google, etc.
Uses
• Reduce bandwidth requirements on content provider
• Reduce $$ to maintain origin servers
• Reduce traffic on a network’s Internet connection, e.g.,
Rutgers
• Improve response time to user for a service
Content Distribution Networks (CDN)
39. Without CDN
• Huge bandwidth requirements for Rutgers
• Large propagation delays to reach users
• So, distribute content to geographically distributed cache servers.
• Often, use DNS to redirect request to users to copies of content
39
128.6.4.2
DOMAIN NAME IP ADDRESS
www.yahoo.com 98.138.253.109
cs.rutgers.edu 128.6.4.2
www.google.com 74.125.225.243
www.princeton.edu 128.112.132.86
Cluster with Rutgers CS
origin servers
40. • Origin server
• Server that holds the authoritative copy of the content
• CDN server
• A replica server owned by the CDN provider
• CDN name server
• A DNS like name server used for redirection
• Client
CDN terms
41. 128.6.4.2
DOMAIN NAME IP ADDRESS
www.yahoo.com 98.138.253.109
cs.rutgers.edu 124.8.9.8 (NS of CDN)
www.google.com 74.125.225.243
www.princeton.edu 128.112.132.86
DOMAIN NAME IP ADDRESS
www.yahoo.com 12.1.2.3
www.yahoo.com 12.1.2.4
www.yahoo.com 12.1.2.5
www.yahoo.com 12.1.2.6
CDN Name Server (124.8.9.8)
12.1.2.3
12.1.2.4
12.1.2.5
12.1.2.6
Origin server
Client
CDN servers
With CDN
Custom
logic to
map ONE
domain
name to
one of
many IP
addresses!
Implement DNS
delegation to the
CDN name server.
“layer of indirection”
Most requests go to CDN servers (caches).
Only the remainder go to the origin server.
42. 42
Themes from HTTP
• Request/response nature of the protocol
• Special HTTP headers to customize actions of the protocol
• ASCII-based message structures
• Improve performance using caching
• Scale using a layer of indirection
• Simple, highly-customizable protocol, permitting efficient
implementations and flexible functionality.
• The basis of why we enjoy the web today.