A typical HTTP session
In client-server protocols, like HTTP, sessions consist of three phases:
- The client establishes a TCP connection (or the appropriate connection if the transport layer is not TCP).
- The client sends its request, and waits for the answer.
- The server processes the request, sending back its answer, providing a status code and appropriate data.
As of HTTP/1.1, the connection is no longer closed after completing the third phase, and the client is now granted a further request: this means the second and third phases can now be performed any number of times.
Establishing a connection
In client-server protocols, it is the client which establishes the connection. Opening a connection in HTTP means initiating a connection in the underlying transport layer, usually this is TCP.
With TCP the default port, for an HTTP server on a computer, is port 80. Other ports can also be used, like 8000 or 8080. The URL of a page to fetch contains both the domain name, and the port number, though the latter can be omitted if it is 80. See Identifying resources on the Web for more details.
Note: The client-server model does not allow the server to send data to the client without an explicit request for it. To work around this problem, web developers use several techniques: ping the server periodically via the
fetch() APIs, using the WebSockets API, or similar protocols.
Sending a client request
Once the connection is established, the user-agent can send the request (a user-agent is typically a web browser, but can be anything else, a crawler, for example). A client request consists of text directives, separated by CRLF (carriage return, followed by line feed), divided into three blocks:
- The first line contains a request method followed by its parameters:
- the path of the document, as an absolute URL without the protocol or domain name
- the HTTP protocol version
- Subsequent lines represent an HTTP header, giving the server information about what type of data is appropriate (for example, what language, what MIME types), or other data altering its behavior (for example, not sending an answer if it is already cached). These HTTP headers form a block which ends with an empty line.
- The final block is an optional data block, which may contain further data mainly used by the POST method.
Fetching the root page of developer.mozilla.org, (
https://developer.mozilla.org/), and telling the server that the user-agent would prefer the page in French, if possible:
GET / HTTP/1.1 Host: developer.mozilla.org Accept-Language: fr
Observe that final empty line, this separates the data block from the header block. As there is no
Content-Length provided in an HTTP header, this data block is presented empty, marking the end of the headers, allowing the server to process the request the moment it receives this empty line.
For example, sending the result of a form:
POST /contact_form.php HTTP/1.1 Host: developer.mozilla.org Content-Length: 64 Content-Type: application/x-www-form-urlencoded name=Joe%20User&request=Send%20me%20one%20of%20your%20catalogue
HTTP defines a set of request methods indicating the desired action to be performed upon a resource. Although they can also be nouns, these requests methods are sometimes referred as HTTP verbs. The most common requests are
GETmethod requests a data representation of the specified resource. Requests using
GETshould only retrieve data.
POSTmethod sends data to a server so it may change its state. This is the method often used for HTML Forms.
Structure of a server response
After the connected agent has sent its request, the web server processes it, and ultimately returns a response. Similar to a client request, a server response is formed of text directives, separated by CRLF, though divided into three blocks:
- The first line, the status line, consists of an acknowledgment of the HTTP version used, followed by a response status code (and its brief meaning in human-readable text).
- Subsequent lines represent specific HTTP headers, giving the client information about the data sent (for example, type, data size, compression algorithm used, hints about caching). Similarly to the block of HTTP headers for a client request, these HTTP headers form a block ending with an empty line.
- The final block is a data block, which contains the optional data.
Successful web page response:
HTTP/1.1 200 OK Content-Type: text/html; charset=utf-8 Content-Length: 55743 Connection: keep-alive Cache-Control: s-maxage=300, public, max-age=0 Content-Language: en-US Date: Thu, 06 Dec 2018 17:37:18 GMT ETag: "2e77ad1dc6ab0b53a2996dfd4653c1c3" Server: meinheld/0.6.1 Strict-Transport-Security: max-age=63072000 X-Content-Type-Options: nosniff X-Frame-Options: DENY X-XSS-Protection: 1; mode=block Vary: Accept-Encoding,Cookie Age: 7 <!DOCTYPE html> <html lang="en"> <head> <meta charset="utf-8"> <title>A simple webpage</title> </head> <body> <h1>Simple HTML5 webpage</h1> <p>Hello, world!</p> </body> </html>
Notification that the requested resource has permanently moved:
HTTP/1.1 301 Moved Permanently Server: Apache/2.4.37 (Red Hat) Content-Type: text/html; charset=utf-8 Date: Thu, 06 Dec 2018 17:33:08 GMT Location: https://developer.mozilla.org/ (this is the new link to the resource; it is expected that the user-agent will fetch it) Keep-Alive: timeout=15, max=98 Accept-Ranges: bytes Via: Moz-Cache-zlb05 Connection: Keep-Alive Content-Length: 325 (the content contains a default page to display if the user-agent is not able to follow the link) <!DOCTYPE html... (contains a site-customized page helping the user to find the missing resource)
Notification that the requested resource doesn't exist:
HTTP/1.1 404 Not Found Content-Type: text/html; charset=utf-8 Content-Length: 38217 Connection: keep-alive Cache-Control: no-cache, no-store, must-revalidate, max-age=0 Content-Language: en-US Date: Thu, 06 Dec 2018 17:35:13 GMT Expires: Thu, 06 Dec 2018 17:35:13 GMT Server: meinheld/0.6.1 Strict-Transport-Security: max-age=63072000 X-Content-Type-Options: nosniff X-Frame-Options: DENY X-XSS-Protection: 1; mode=block Vary: Accept-Encoding,Cookie X-Cache: Error from cloudfront <!DOCTYPE html... (contains a site-customized page helping the user to find the missing resource)
Response status codes
HTTP response status codes indicate if a specific HTTP request has been successfully completed. Responses are grouped into five classes: informational responses, successful responses, redirects, client errors, and servers errors.