draft-ietf-httpstate-cookie-20

httpstate A. Barth
Internet-Draft U.C. Berkeley
Obsoletes: 2965 (if approved) December 19, 2010
Intended status: Standards Track
Expires: June 22, 2011
 HTTP State Management Mechanism
 draft-ietf-httpstate-cookie-20
Abstract
 This document defines the HTTP Cookie and Set-Cookie header fields.
 These header fields can be used by HTTP servers to store state
 (called cookies) at HTTP user agents, letting the servers maintain a
 stateful session over the mostly stateless HTTP protocol. Although
 cookies have many historical infelicities that degrade their security
 and privacy, the Cookie and Set-Cookie header fields are widely used
 on the Internet.
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Editorial Note (To be removed by RFC Editor)
 If you have suggestions for improving this document, please send
 email to <mailto:http-state@ietf.org>. Suggestions with test cases
 are especially appreciated. Further Working Group information is
 available from <https://tools.ietf.org/wg/httpstate/>.
Status of this Memo
 This Internet-Draft is submitted in full conformance with the
 provisions of BCP 78 and BCP 79.
 Internet-Drafts are working documents of the Internet Engineering
 Task Force (IETF). Note that other groups may also distribute
 working documents as Internet-Drafts. The list of current Internet-
 Drafts is at http://datatracker.ietf.org/drafts/current/.
 Internet-Drafts are draft documents valid for a maximum of six months
 and may be updated, replaced, or obsoleted by other documents at any
 time. It is inappropriate to use Internet-Drafts as reference
 material or to cite them other than as "work in progress."
 This Internet-Draft will expire on June 22, 2011.
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 Copyright (c) 2010 IETF Trust and the persons identified as the
 document authors. All rights reserved.
 This document is subject to BCP 78 and the IETF Trust's Legal
 Provisions Relating to IETF Documents
 (http://trustee.ietf.org/license-info) in effect on the date of
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 it for publication as an RFC or to translate it into languages other
 than English.
Table of Contents
 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . 5
 2. Conventions . . . . . . . . . . . . . . . . . . . . . . . . . 7
 2.1. Conformance Criteria . . . . . . . . . . . . . . . . . . . 7
 2.2. Syntax Notation . . . . . . . . . . . . . . . . . . . . . 7
 2.3. Terminology . . . . . . . . . . . . . . . . . . . . . . . 7
 3. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
 3.1. Examples . . . . . . . . . . . . . . . . . . . . . . . . . 9
 4. Server Requirements . . . . . . . . . . . . . . . . . . . . . 12
 4.1. Set-Cookie . . . . . . . . . . . . . . . . . . . . . . . . 12
 4.1.1. Syntax . . . . . . . . . . . . . . . . . . . . . . . . 12
 4.1.2. Semantics (Non-Normative) . . . . . . . . . . . . . . 14
 4.2. Cookie . . . . . . . . . . . . . . . . . . . . . . . . . . 16
 4.2.1. Syntax . . . . . . . . . . . . . . . . . . . . . . . . 16
 4.2.2. Semantics . . . . . . . . . . . . . . . . . . . . . . 17
 5. User Agent Requirements . . . . . . . . . . . . . . . . . . . 18
 5.1. Subcomponent Algorithms . . . . . . . . . . . . . . . . . 18
 5.1.1. Dates . . . . . . . . . . . . . . . . . . . . . . . . 18
 5.1.2. Canonicalized host names . . . . . . . . . . . . . . . 20
 5.1.3. Domain matching . . . . . . . . . . . . . . . . . . . 20
 5.1.4. Paths and path-match . . . . . . . . . . . . . . . . . 20
 5.2. The Set-Cookie Header . . . . . . . . . . . . . . . . . . 21
 5.2.1. The Expires Attribute . . . . . . . . . . . . . . . . 23
 5.2.2. The Max-Age Attribute . . . . . . . . . . . . . . . . 24
 5.2.3. The Domain Attribute . . . . . . . . . . . . . . . . . 24
 5.2.4. The Path Attribute . . . . . . . . . . . . . . . . . . 24
 5.2.5. The Secure Attribute . . . . . . . . . . . . . . . . . 25
 5.2.6. The HttpOnly Attribute . . . . . . . . . . . . . . . . 25
 5.3. Storage Model . . . . . . . . . . . . . . . . . . . . . . 25
 5.4. The Cookie Header . . . . . . . . . . . . . . . . . . . . 29
 6. Implementation Considerations . . . . . . . . . . . . . . . . 31
 6.1. Limits . . . . . . . . . . . . . . . . . . . . . . . . . . 31
 6.2. Application Programming Interfaces . . . . . . . . . . . . 31
 6.3. IDNA dependency and migration . . . . . . . . . . . . . . 31
 7. Privacy Considerations . . . . . . . . . . . . . . . . . . . . 33
 7.1. Third-Party Cookies . . . . . . . . . . . . . . . . . . . 33
 7.2. User Controls . . . . . . . . . . . . . . . . . . . . . . 33
 8. Security Considerations . . . . . . . . . . . . . . . . . . . 35
 8.1. Overview . . . . . . . . . . . . . . . . . . . . . . . . . 35
 8.2. Ambient Authority . . . . . . . . . . . . . . . . . . . . 35
 8.3. Clear Text . . . . . . . . . . . . . . . . . . . . . . . . 36
 8.4. Session Identifiers . . . . . . . . . . . . . . . . . . . 36
 8.5. Weak Confidentiality . . . . . . . . . . . . . . . . . . . 37
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 8.6. Weak Integrity . . . . . . . . . . . . . . . . . . . . . . 37
 8.7. Reliance on DNS . . . . . . . . . . . . . . . . . . . . . 38
 9. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 39
 9.1. Cookie . . . . . . . . . . . . . . . . . . . . . . . . . . 39
 9.2. Set-Cookie . . . . . . . . . . . . . . . . . . . . . . . . 39
 9.3. Cookie2 . . . . . . . . . . . . . . . . . . . . . . . . . 39
 9.4. Set-Cookie2 . . . . . . . . . . . . . . . . . . . . . . . 39
 10. References . . . . . . . . . . . . . . . . . . . . . . . . . . 41
 10.1. Normative References . . . . . . . . . . . . . . . . . . . 41
 10.2. Informative References . . . . . . . . . . . . . . . . . . 41
 Appendix A. Acknowledgements . . . . . . . . . . . . . . . . . . 43
 Author's Address . . . . . . . . . . . . . . . . . . . . . . . . . 44
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. Introduction
 This document defines the HTTP Cookie and Set-Cookie header fields.
 Using the Set-Cookie header field, an HTTP server can pass name/value
 pairs and associated metadata (called cookies) to a user agent. When
 the user agent makes subsequent requests to the server, the user
 agent uses the metadata and other information to determine whether to
 return the name/value pairs in the Cookie header.
 Although simple on their surface, cookies have a number of
 complexities. For example, the server indicates a scope for each
 cookie when sending it to the user agent. The scope indicates the
 maximum amount of time the user agent should return the cookie, the
 servers to which the user agent should return the cookie, and the URI
 schemes for which the cookie is applicable.
 For historical reasons, cookies contain a number of security and
 privacy infelicities. For example, a server can indicate that a
 given cookie is intended for "secure" connections, but the Secure
 attribute does not provide integrity in the presence of an active
 network attacker. Similarly, cookies for a given host are shared
 across all the ports on that host, even though the usual "same-origin
 policy" used by web browsers isolates content retrieved via different
 ports.
 Prior to this document, there were at least three descriptions of
 cookies: the so-called "Netscape cookie specification" [Netscape],
 RFC 2109 [RFC2109], and RFC 2965 [RFC2965]. However, none of these
 documents describe how the Cookie and Set-Cookie headers are actually
 used on the Internet (see [Kri2001] for historical context). This
 document specifies the syntax and semantics of these headers as they
 are actually used on the Internet.
 In particular, this document does not create new syntax or semantics
 beyond those in use today, but neither does it recommend all of the
 syntactic and semantic variations in use today. The recommendations
 in this document represent a preferred subset of current behaviors.
 Where some existing software differs from the recommended protocol
 in significant ways, the document contains a note explaining the
 difference.
 Therefore, in relation to previous IETF specifications of HTTP state
 management mechanisms, this document requests the following actions:
 1. Change the status of [RFC2109] to Historic (it has already been
 obsoleted by [RFC2965]).
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 2. Change the status of [RFC2965] to Historic.
 3. Indicate that [RFC2965] is obsoleted by this document.
 In particular, in moving RFC 2965 to Historic and obsoleting it, this
 document deprecates the use of the Cookie2 and Set-Cookie2 header
 fields.
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. Conventions
2.1. Conformance Criteria
 The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
 "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
 document are to be interpreted as described in [RFC2119].
 Requirements phrased in the imperative as part of algorithms (such as
 "strip any leading space characters" or "return false and abort these
 steps") are to be interpreted with the meaning of the key word
 ("MUST", "SHOULD", "MAY", etc) used in introducing the algorithm.
 Conformance requirements phrased as algorithms or specific steps can
 be implemented in any manner, so long as the end result is
 equivalent. In particular, the algorithms defined in this
 specification are intended to be easy to understand and are not
 intended to be performant.
2.2. Syntax Notation
 This specification uses the Augmented Backus-Naur Form (ABNF)
 notation of [RFC5234].
 The following core rules are included by reference, as defined in
 [RFC5234], Appendix B.1: ALPHA (letters), CR (carriage return), CRLF
 (CR LF), CTL (controls), DIGIT (decimal 0-9), DQUOTE (double quote),
 HEXDIG (hexadecimal 0-9/A-F/a-f), LF (line feed), NUL (null octet),
 OCTET (any 8-bit sequence of data except NUL), SP (space), HTAB
 (horizontal tab), CHAR (any US-ASCII character), VCHAR (any visible
 US-ASCII character), and WSP (whitespace).
 The OWS (optional whitespace) rule is used where zero or more linear
 whitespace characters MAY appear:
 OWS = *( [ obs-fold ] WSP )
 ; "optional" whitespace
 obs-fold = CRLF
 OWS SHOULD either not be produced or be produced as a single SP
 character.
2.3. Terminology
 The terms user agent, client, server, proxy, and origin server have
 the same meaning as in the HTTP/1.1 specification ([RFC2616], Section
 1.3).
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 The request-host is the name of the host, as known by the user agent,
 to which the user agent is sending an HTTP request or is receiving an
 HTTP response from (i.e., the name of the host to which it sent the
 corresponding HTTP request).
 The term request-uri is defined in Section 5.1.2 of [RFC2616].
 Two sequences of octets are said to case-insensitively match each
 other if and only if they are equivalent under the i;ascii-casemap
 collation defined in [RFC4790].
 The term string means a sequence of non-NUL octets.
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. Overview
 This section outlines a way for an origin server to send state
 information to a user agent and for the user agent to return the
 state information to the origin server.
 To store state, the origin server includes a Set-Cookie header in an
 HTTP response. In subsequent requests, the user agent returns a
 Cookie request header to the origin server. The Cookie header
 contains cookies the user agent received in previous Set-Cookie
 headers. The origin server is free to ignore the Cookie header or
 use its contents for an application-defined purpose.
 Origin servers can send a Set-Cookie response header with any
 response. An origin server can include multiple Set-Cookie header
 fields in a single response. The presence of a Cookie or a Set-
 Cookie header field does not preclude HTTP caches from storing and
 reusing a response.
 Origin servers SHOULD NOT fold multiple Set-Cookie header fields into
 a single header field. The usual mechanism for folding HTTP headers
 fields (i.e., as defined in [RFC2616]) might change the semantics of
 the Set-Cookie header field because the %x2C (",") character is used
 by Set-Cookie in a way that conflicts with such folding.
3.1. Examples
 Using the Set-Cookie header, a server can send the user agent a short
 string in an HTTP response that the user agent will return in future
 HTTP requests that are within the scope of the cookie. For example,
 the server can send the user agent a "session identifier" named SID
 with the value 31d4d96e407aad42. The user agent then returns the
 session identifier in subsequent requests.
 == Server -> User Agent ==
 Set-Cookie: SID=31d4d96e407aad42
 == User Agent -> Server ==
 Cookie: SID=31d4d96e407aad42
 The server can alter the default scope of the cookie using the Path
 and Domain attributes. For example, the server can instruct the user
 agent to return the cookie to every path and every subdomain of
 example.com.
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 == Server -> User Agent ==
 Set-Cookie: SID=31d4d96e407aad42; Path=/; Domain=example.com
 == User Agent -> Server ==
 Cookie: SID=31d4d96e407aad42
 As shown in the next example, the server can store multiple cookies
 at the user agent. For example, the server can store a session
 identifier as well as the user's preferred language by returning two
 Set-Cookie header fields. Notice that the server uses the Secure and
 HttpOnly attributes to provide additional security protections for
 the more-sensitive session identifier (see Section 4.1.2.)
 == Server -> User Agent ==
 Set-Cookie: SID=31d4d96e407aad42; Path=/; Secure; HttpOnly
 Set-Cookie: lang=en-US; Path=/; Domain=example.com
 == User Agent -> Server ==
 Cookie: SID=31d4d96e407aad42; lang=en-US
 Notice that the Cookie header above contains two cookies, one named
 SID and one named lang. If the server wishes the user agent to
 persist the cookie over multiple "sessions" (e.g., user agent
 restarts), the server can specify an expiration date in the Expires
 attribute. Note that the user agent might delete the cookie before
 the expiration date if the user agent's cookie store exceeds its
 quota or if the user manually deletes the server's cookie.
 == Server -> User Agent ==
 Set-Cookie: lang=en-US; Expires=2021年6月09日 10:18:14 GMT
 == User Agent -> Server ==
 Cookie: SID=31d4d96e407aad42; lang=en-US
 Finally, to remove a cookie, the server returns a Set-Cookie header
 with an expiration date in the past. The server will be successful
 in removing the cookie only if the Path and the Domain attribute in
 the Set-Cookie header match the values used when the cookie was
 created.
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 == Server -> User Agent ==
 Set-Cookie: lang=; Expires=1994年11月06日 08:49:37 GMT
 == User Agent -> Server ==
 Cookie: SID=31d4d96e407aad42
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. Server Requirements
 This section describes the syntax and semantics of a well-behaved
 profile of the Cookie and Set-Cookie headers. Servers SHOULD limit
 themselves to the profile described in this section, both to maximize
 interoperability with existing user agents and because a future
 version of the Cookie or Set-Cookie headers could remove support for
 some of the esoteric semantics described in Section 5. User agents,
 however, MUST implement the requirements in Section 5 to ensure
 interoperability with servers making use of the full semantics.
4.1. Set-Cookie
 The Set-Cookie HTTP response header is used to send cookies from the
 server to the user agent.
4.1.1. Syntax
 Informally, the Set-Cookie response header contains the header name
 "Set-Cookie" followed by a ":" and a cookie. Each cookie begins with
 a name-value pair, followed by zero or more attribute-value pairs.
 Servers SHOULD NOT send Set-Cookie headers that fail to conform to
 the following grammar:
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set-cookie-header = "Set-Cookie:" SP set-cookie-string
set-cookie-string = cookie-pair *( ";" SP cookie-av )
cookie-pair = cookie-name "=" cookie-value
cookie-name = token
cookie-value = token
token = <token, defined in [RFC2616], Section 2.2>
cookie-av = expires-av / max-age-av / domain-av /
 path-av / secure-av / httponly-av /
 extension-av
expires-av = "Expires=" sane-cookie-date
sane-cookie-date = <rfc1123-date, defined in [RFC2616], Section 3.3.1>
max-age-av = "Max-Age=" non-zero-digit *DIGIT
 ; In practice, both expires-av and max-age-av are limited
 ; to dates representable by the user agent.
non-zero-digit = %x31-39
 ; digits 1 through 9
domain-av = "Domain=" domain-value
domain-value = <subdomain>
 ; defined in [RFC1034], Section 3.5, as
 ; enhanced by [RFC1123], Section 2.1
path-av = "Path=" path-value
path-value = <any CHAR except CTLs or ";">
secure-av = "Secure"
httponly-av = "HttpOnly"
extension-av = <any CHAR except CTLs or ";">
 Note that some of the grammatical terms above reference documents
 that use different grammatical notations than this document (which
 uses ABNF from [RFC5234]).
 The semantics of the cookie-value are not defined by this document.
 To maximize compatibility with user agents, servers that wish to
 store arbitrary data in a cookie-value SHOULD encode that data, for
 example, using Base 16 [RFC4648].
 The portions of the set-cookie-string produced by the cookie-av term
 are known as attributes. To maximize compatibility with user agents,
 servers SHOULD NOT produce two attributes with the same name in the
 same set-cookie-string. (See Section 5.3 for how user agents handle
 this case.)
 Servers SHOULD NOT include more than one Set-Cookie header field in
 the same response with the same cookie-name. (See Section 5.2 for
 how user agents handle this case.)
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 If a server sends multiple responses containing Set-Cookie headers
 concurrently to the user agent (e.g., when communicating with the
 user agent over multiple sockets), these responses create a "race
 condition" that can lead to unpredictable behavior.
 NOTE: Some existing user agents differ on their interpretation of
 two-digit years. To avoid compatibility issues, servers SHOULD use
 the rfc1123-date format, which requires a four-digit year.
 NOTE: Some user agents represent dates using 32-bit UNIX time_t
 values. Some of these user agents might contain bugs that cause them
 to process dates after the year 2038 incorrectly.
4.1.2. Semantics (Non-Normative)
 This section describes a simplified semantics of the Set-Cookie
 header. These semantics are detailed enough to be useful for
 understanding the most common uses of cookies by servers. The full
 semantics are described in Section 5.
 When the user agent receives a Set-Cookie header, the user agent
 stores the cookie together with its attributes. Subsequently, when
 the user agent makes an HTTP request, the user agent includes the
 applicable, non-expired cookies in the Cookie header.
 If the user agent receives a new cookie with the same cookie-name,
 domain-value, and path-value as a cookie that it has already stored,
 the existing cookie is evicted and replaced with the new cookie.
 Notice that servers can delete cookies by sending the user agent a
 new cookie with an Expires attribute with a value in the past.
 Unless the cookie's attributes indicate otherwise, the cookie is
 returned only to the origin server (and not, e.g., to any
 subdomains), and it expires at the end of the current session (as
 defined by the user agent). User agents ignore unrecognized cookie
 attributes (but not the entire cookie).
4.1.2.1. The Expires Attribute
 The Expires attribute indicates the maximum lifetime of the cookie,
 represented as the date and time at which the cookie expires. The
 user agent is not required to retain the cookie until the specified
 date has passed. In fact, user agents often evict cookies due to
 memory pressure or privacy concerns.
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4.1.2.2. The Max-Age Attribute
 The Max-Age attribute indicates the maximum lifetime of the cookie,
 represented as the number of seconds until the cookie expires. The
 user agent is not required to retain the cookie for the specified
 duration. In fact, user agents often evict cookies from due to
 memory pressure or privacy concerns.
 NOTE: Some existing user agents do not support the Max-Age
 attribute. User agents that do not support the Max-Age attribute
 ignore the attribute.
 If a cookie has both the Max-Age and the Expires attribute, the Max-
 Age attribute has precedence and controls the expiration date of the
 cookie. If a cookie has neither the Max-Age nor the Expires
 attribute, the user agent will retain the cookie until "the current
 session is over" (as defined by the user agent).
4.1.2.3. The Domain Attribute
 The Domain attribute specifies those hosts to which the cookie will
 be sent. For example, if the value of the Domain attribute is
 "example.com", the user agent will include the cookie in the Cookie
 header when making HTTP requests to example.com, www.example.com, and
 www.corp.example.com. (Note that a leading %x2E ("."), if present,
 is ignored even though that character is not permitted, but a
 trailing %x2E ("."), if present, will cause the user agent to ignore
 the attribute.) If the server omits the Domain attribute, the user
 agent will return the cookie only to the origin server.
 WARNING: Some existing user agents treat an absent Domain
 attribute as if the Domain attribute were present and contained
 the current host name. For example, if example.com returns a Set-
 Cookie header without a Domain attribute, these user agents will
 erroneously send the cookie to www.example.com as well.
 The user agent will reject cookies unless the Domain attribute
 specifies a scope for the cookie that would include the origin
 server. For example, the user agent will accept a cookie with a
 Domain attribute of "example.com" or of "foo.example.com" from
 foo.example.com, but the user agent will not accept a cookie with a
 Domain attribute of "bar.example.com" or of "baz.foo.example.com".
 NOTE: For security reasons, many user agents are configured to reject
 Domain attributes that correspond to "public suffixes". For example,
 some user agents will reject Domain attributes of "com" or "co.uk".
 (See Section 5.3 for more information.)
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4.1.2.4. The Path Attribute
 The scope of each cookie is limited to a set of paths, controlled by
 the Path attribute. If the server omits the Path attribute, the user
 agent will use the "directory" of the request-uri's path component as
 the default value. (See Section 5.1.4 for more details.)
 The user agent will include the cookie in an HTTP request only if the
 path portion of the request-uri matches (or is a subdirectory of) the
 cookie's Path attribute, where the %x2F ("/") character is
 interpreted as a directory separator.
 Although seemingly useful for isolating cookies between different
 paths within a given host, the Path attribute cannot be relied upon
 for security (see Section 8).
4.1.2.5. The Secure Attribute
 The Secure attribute limits the scope of the cookie to "secure"
 channels (where "secure" is defined by the user agent). When a
 cookie has the Secure attribute, the user agent will include the
 cookie in an HTTP request only if the request is transmitted over a
 secure channel (typically HTTP over Transport Layer Security (TLS)
 [RFC2818]).
 Although seemingly useful for protecting cookies from active network
 attackers, the Secure attribute protects only the cookie's
 confidentiality. An active network attacker can overwrite Secure
 cookies from an insecure channel, disrupting their integrity (see
 Section 8.6 for more details).
4.1.2.6. The HttpOnly Attribute
 The HttpOnly attribute limits the scope of the cookie to HTTP
 requests. In particular, the attribute instructs the user agent to
 omit the cookie when providing access to cookies via "non-HTTP" APIs
 (such as a web browser API that exposes cookies to scripts).
 Note that the HttpOnly attribute is independent of the Secure
 attribute: a cookie can have both the HttpOnly and the Secure
 attribute.
4.2. Cookie
4.2.1. Syntax
 The user agent sends stored cookies to the origin server in the
 Cookie header. If the server conforms to the requirements in
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 Section 4.1 (and the user agent conforms to the requirements in
 Section 5), the user agent will send a Cookie header that conforms to
 the following grammar:
 cookie-header = "Cookie:" OWS cookie-string OWS
 cookie-string = cookie-pair *( ";" SP cookie-pair )
4.2.2. Semantics
 Each cookie-pair represents a cookie stored by the user agent. The
 cookie-pair contains the cookie-name and cookie-value the user agent
 received in the Set-Cookie header.
 Notice that the cookie attributes are not returned. In particular,
 the server cannot determine from the Cookie header alone when a
 cookie will expire, for which hosts the cookie is valid, for which
 paths the cookie is valid, or whether the cookie was set with the
 Secure or HttpOnly attributes.
 The semantics of individual cookies in the Cookie header are not
 defined by this document. Servers are expected to imbue these
 cookies with application-specific semantics.
 Although cookies are serialized linearly in the Cookie header,
 servers SHOULD NOT rely upon the serialization order. In particular,
 if the Cookie header contains two cookies with the same name (e.g.,
 that were set with different Path or Domain attributes), servers
 SHOULD NOT rely upon the order in which these cookies appear in the
 header.
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. User Agent Requirements
 For historical reasons, the full semantics of cookies (as presently
 deployed on the Internet) contain a number of exotic quirks. This
 section is intended to specify the Cookie and Set-Cookie headers in
 sufficient detail to allow a user agent implementing these
 requirements precisely to interoperate with existing servers.
5.1. Subcomponent Algorithms
 This section defines some algorithms used by user agents to process
 specific subcomponents of the Cookie and Set-Cookie headers.
5.1.1. Dates
 The user agent MUST use an algorithm equivalent to the following
 algorithm to parse a cookie-date. Note that the various boolean
 flags defined as a part of the algorithm (i.e., found-time, found-
 day-of-month, found-month, found-year) are initially "not set".
 1. Using the grammar below, divide the cookie-date into date-tokens.
 cookie-date = *delimiter date-token-list *delimiter
 date-token-list = date-token *( 1*delimiter date-token )
 date-token = 1*non-delimiter
 delimiter = %x09 / %x20-2F / %x3B-40 / %x5B-60 / %x7B-7E
 non-delimiter = %x00-08 / %x0A-1F / DIGIT / ":" / ALPHA / %x7F-FF
 non-digit = %x00-2F / %x3A-FF
 day-of-month = 1*2DIGIT ( non-digit *OCTET )
 month = ( "jan" / "feb" / "mar" / "apr" /
 "may" / "jun" / "jul" / "aug" /
 "sep" / "oct" / "nov" / "dec" ) *OCTET
 year = 1*4DIGIT ( non-digit *OCTET )
 time = hms-time ( non-digit *OCTET )
 hms-time = time-field ":" time-field ":" time-field
 time-field = 1*2DIGIT
 2. Process each date-token sequentially in the order the date-tokens
 appear in the cookie-date:
 1. If the found-time flag is not set and the token matches the
 time production, set the found-time flag and set the hour-
 value, minute-value, and second-value to the numbers denoted
 by the digits in the date-token, respectively. Skip the
 remaining sub-steps and continue to the next date-token.
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 2. If the found-day-of-month flag is not set and the date-token
 matches the day-of-month production, set the found-day-of-
 month flag and set the day-of-month-value to the number
 denoted by the date-token. Skip the remaining sub-steps and
 continue to the next date-token.
 3. If the found-month flag is not set and the date-token matches
 the month production, set the found-month flag and set the
 month-value to the month denoted by the date-token. Skip the
 remaining sub-steps and continue to the next date-token.
 4. If the found-year flag is not set and the date-token matches
 the year production, set the found-year flag and set the
 year-value to the number denoted by the date-token. Skip the
 remaining sub-steps and continue to the next date-token.
 3. If the year-value is greater than or equal to 70 and less than or
 equal to 99, increment the year-value by 1900.
 4. If the year-value is greater than or equal to 0 and less than or
 equal to 69, increment the year-value by 2000.
 1. NOTE: Some existing user agents interpret two-digit years
 differently.
 5. Abort these steps and fail to parse the cookie-date if
 * at least one of the found-day-of-month, found-month, found-
 year, or found-time flags is not set,
 * the day-of-month-value is less than 1 or greater than 31,
 * the year-value is less than 1601,
 * the hour-value is greater than 23,
 * the minute-value is greater than 59, or
 * the second-value is greater than 59.
 (Note that leap seconds cannot be represented in this syntax.)
 6. Let the parsed-cookie-date be the date whose day-of-month, month,
 year, hour, minute, and second (in UTC) are the day-of-month-
 value, the month-value, the year-value, the hour-value, the
 minute-value, and the second-value, respectively. If no such
 date exists, abort these steps and fail to parse the cookie-date.
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 7. Return the parsed-cookie-date as the result of this algorithm.
5.1.2. Canonicalized host names
 A canonicalized host name is the string generated by the following
 algorithm:
 1. Convert the host name to a sequence of individual domain name
 labels.
 2. Convert each label that is not a NR-LDH label, to a A-label (see
 Section 2.3.2.1 of [RFC5890] for the fomer and latter), or to a
 "punycode label" (a label resulting from the "ToASCII" conversion
 in Section 4 of [RFC3490]), as appropriate (see Section 6.3 of
 this specification).
 3. Concatentate the resulting labels, separated by a %x2E (".")
 character.
5.1.3. Domain matching
 A string domain-matches a given domain string if at least one of the
 following conditions hold:
 o The domain string and the string are identical. (Note that both
 the domain string and the string will have been canonicalized to
 lower case at this point.)
 o All of the following conditions hold:
 * The domain string is a suffix of the string.
 * The last character of the string that is not included in the
 domain string is a %x2E (".") character.
 * The string is a host name (i.e., not an IP address).
5.1.4. Paths and path-match
 The user agent MUST use an algorithm equivalent to the following
 algorithm to compute the default-path of a cookie:
 1. Let uri-path be the path portion of the request-uri if such a
 portion exists (and empty otherwise). For example, if the
 request-uri contains just a path (and optional query string),
 then the uri-path is that path (without the %x3F ("?") character
 or query string), and if the request-uri contains a full
 absoluteURI, the uri-path is the path component of that URI.
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 2. If the uri-path is empty or if the first character of the uri-
 path is not a %x2F ("/") character, output %x2F ("/") and skip
 the remaining steps.
 3. If the uri-path contains only a single %x2F ("/") character,
 output %x2F ("/") and skip the remaining steps.
 4. Output the characters of the uri-path from the first character up
 to, but not including, the right-most %x2F ("/").
 A request-path path-matches a given cookie-path if at least one of
 the following conditions hold:
 o The cookie-path and the request-path are identical.
 o The cookie-path is a prefix of the request-path and the last
 character of the cookie-path is %x2F ("/").
 o The cookie-path is a prefix of the request-path and the first
 character of the request-path that is not included in the cookie-
 path is a %x2F ("/") character.
5.2. The Set-Cookie Header
 When a user agent receives a Set-Cookie header field in an HTTP
 response, the user agent MAY ignore the Set-Cookie header field in
 its entirety. For example, the user agent might wish to block
 responses to "third-party" requests from setting cookies.
 If the user agent does not ignore the Set-Cookie header field in its
 entirety, the user agent MUST parse the field-value of the Set-Cookie
 header field as a set-cookie-string (defined below).
 NOTE: The algorithm below is more permissive than the grammar in
 Section 4.1. For example, the algorithm strips leading and trailing
 whitespace from the cookie name and value (but maintains internal
 whitespace), whereas the grammar in Section 4.1 forbids whitespace in
 these positions. User agents use this algorithm so as to
 interoperate with servers that do not follow the recommendations in
 Section 4.
 A user agent MUST use an algorithm equivalent to the following
 algorithm to parse a "set-cookie-string":
 1. If the set-cookie-string contains a %x3B (";") character:
 The name-value-pair string consists of the characters up to,
 but not including, the first %x3B (";"), and the unparsed-
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 attributes consist of the remainder of the set-cookie-string
 (including the %x3B (";") in question).
 Otherwise:
 The name-value-pair string consists of all the characters
 contained in the set-cookie-string, and the unparsed-
 attributes is the empty string.
 2. If the name-value-pair string lacks a %x3D ("=") character,
 ignore the set-cookie-string entirely.
 3. The (possibly empty) name string consists of the characters up
 to, but not including, the first %x3D ("=") character, and the
 (possibly empty) value string consists of the characters after
 the first %x3D ("=") character.
 4. Remove any leading or trailing WSP characters from the name
 string and the value string.
 5. If the name string is empty, ignore the set-cookie-string
 entirely.
 6. The cookie-name is the name string, and the cookie-value is the
 value string.
 The user agent MUST use an algorithm equivalent to the following
 algorithm to parse the unparsed-attributes:
 1. If the unparsed-attributes string is empty, skip the rest of
 these steps.
 2. Discard the first character of the unparsed-attributes (which
 will be a %x3B (";") character).
 3. If the remaining unparsed-attributes contains a %x3B (";")
 character:
 Consume the characters of the unparsed-attributes up to, but
 not including, the first %x3B (";") character.
 Otherwise:
 Consume the remainder of the unparsed-attributes.
 Let the cookie-av string be the characters consumed in this step.
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 4. If the cookie-av string contains a %x3D ("=") character:
 The (possibly empty) attribute-name string consists of the
 characters up to, but not including, the first %x3D ("=")
 character, and the (possibly empty) attribute-value string
 consists of the characters after the first %x3D ("=")
 character.
 Otherwise:
 The attribute-name string consists of the entire cookie-av
 string, and the attribute-value string is empty.
 5. Remove any leading or trailing WSP characters from the attribute-
 name string and the attribute-value string.
 6. Process the attribute-name and attribute-value according to the
 requirements in the following subsections. (Notice that
 attributes with unrecognized attribute-names are ignored.)
 7. Return to Step 1 of this algorithm.
 When the user agent finishes parsing the set-cookie-string, the user
 agent is said to "receive a cookie" from the request-uri with name
 cookie-name, value cookie-value, and attributes cookie-attribute-
 list. (See Section 5.3 for additional requirements triggered by
 receiving a cookie.)
5.2.1. The Expires Attribute
 If the attribute-name case-insensitively matches the string
 "Expires", the user agent MUST process the cookie-av as follows.
 Let the expiry-time be the result of parsing the attribute-value as
 cookie-date (see Section 5.1.1).
 If the attribute-value failed to parse as a cookie date, ignore the
 cookie-av.
 If the expiry-time is later than the last date the user agent can
 represent, the user agent MAY replace the expiry-time with the last
 representable date.
 If the expiry-time is earlier than the earliest date the user agent
 can represent, the user agent MAY replace the expiry-time with the
 earliest representable date.
 Append an attribute to the cookie-attribute-list with an attribute-
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 name of Expires and an attribute-value of expiry-time.
5.2.2. The Max-Age Attribute
 If the attribute-name case-insensitively matches the string "Max-
 Age", the user agent MUST process the cookie-av as follows.
 If the first character of the attribute-value is not a DIGIT or a "-"
 character, ignore the cookie-av.
 If the remainder of attribute-value contains a non-DIGIT character,
 ignore the cookie-av.
 Let delta-seconds be the attribute-value converted to an integer.
 If delta-seconds is less than or equal to zero (0), let expiry-time
 be the earliest representable date and time. Otherwise, let the
 expiry-time be the current date and time plus delta-seconds seconds.
 Append an attribute to the cookie-attribute-list with an attribute-
 name of Max-Age and an attribute-value of expiry-time.
5.2.3. The Domain Attribute
 If the attribute-name case-insensitively matches the string "Domain",
 the user agent MUST process the cookie-av as follows.
 If the attribute-value is empty, the behavior is undefined. However,
 user agent SHOULD ignore the cookie-av entirely.
 If the first character of the attribute-value string is %x2E ("."):
 Let cookie-domain be the attribute-value without the leading %x2E
 (".") character.
 Otherwise:
 Let cookie-domain be the entire attribute-value.
 Convert the cookie-domain to lower case.
 Append an attribute to the cookie-attribute-list with an attribute-
 name of Domain and an attribute-value of cookie-domain.
5.2.4. The Path Attribute
 If the attribute-name case-insensitively matches the string "Path",
 the user agent MUST process the cookie-av as follows.
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 If the attribute-value is empty or if the first character of the
 attribute-value is not %x2F ("/"):
 Let cookie-path be the default-path.
 Otherwise:
 Let cookie-path be the attribute-value.
 Append an attribute to the cookie-attribute-list with an attribute-
 name of Path and an attribute-value of cookie-path.
5.2.5. The Secure Attribute
 If the attribute-name case-insensitively matches the string "Secure",
 the user agent MUST append an attribute to the cookie-attribute-list
 with an attribute-name of Secure and an empty attribute-value.
5.2.6. The HttpOnly Attribute
 If the attribute-name case-insensitively matches the string
 "HttpOnly", the user agent MUST append an attribute to the cookie-
 attribute-list with an attribute-name of HttpOnly and an empty
 attribute-value.
5.3. Storage Model
 The user agent stores the following fields about each cookie: name,
 value, expiry-time, domain, path, creation-time, last-access-time,
 persistent-flag, host-only-flag, secure-only-flag, and http-only-
 flag.
 When the user agent "receives a cookie" from a request-uri with name
 cookie-name, value cookie-value, and attributes cookie-attribute-
 list, the user agent MUST process the cookie as follows:
 1. A user agent MAY ignore a received cookie in its entirety. For
 example, the user agent might wish to block receiving cookies
 from "third-party" responses or the user agent might not wish to
 store cookies that exceed some size.
 2. Create a new cookie with name cookie-name, value cookie-value.
 Set the creation-time and the last-access-time to the current
 date and time.
 3. If the cookie-attribute-list contains an attribute with an
 attribute-name of "Max-Age":
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 Set the cookie's persistent-flag to true.
 Set the cookie's expiry-time to attribute-value of the last
 attribute in the cookie-attribute-list with an attribute-name
 of "Max-Age".
 Otherwise, if the cookie-attribute-list contains an attribute
 with an attribute-name of "Expires" (and does not contain an
 attribute with an attribute-name of "Max-Age"):
 Set the cookie's persistent-flag to true.
 Set the cookie's expiry-time to attribute-value of the last
 attribute in the cookie-attribute-list with an attribute-name
 of "Expires".
 Otherwise:
 Set the cookie's persistent-flag to false.
 Set the cookie's expiry-time to the latest representable
 date.
 4. If the cookie-attribute-list contains an attribute with an
 attribute-name of "Domain":
 Let the domain-attribute be the attribute-value of the last
 attribute in the cookie-attribute-list with an attribute-name
 of "Domain".
 Otherwise:
 Let the domain-attribute be the empty string.
 5. If the user agent is configured to reject "public suffixes" and
 the domain-attribute is a public suffix:
 If the domain-attribute is identical to the canonicalized
 request-host:
 Let the domain-attribute be the empty string.
 Otherwise:
 Ignore the cookie entirely and abort these steps.
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 NOTE: A "public suffix" is a domain that is controlled by a
 public registry, such as "com", "co.uk", and "pvt.k12.wy.us".
 This step is essential for preventing attacker.com from
 disrupting the integrity of example.com by setting a cookie
 with a Domain attribute of "com". Unfortunately, the set of
 public suffixes (also known as "registry controlled domains")
 changes over time. If feasible, user agents SHOULD use an
 up-to-date public suffix list, such as the one maintained by
 the Mozilla project at <http://publicsuffix.org/>.
 6. If the domain-attribute is non-empty:
 If the canonicalized request-host does not domain-match the
 domain-attribute:
 Ignore the cookie entirely and abort these steps.
 Otherwise:
 Set the cookie's host-only-flag to false.
 Set the cookie's domain to the domain-attribute.
 Otherwise:
 Set the cookie's host-only-flag to true.
 Set the cookie's domain to the canonicalized request-host.
 7. If the cookie-attribute-list contains an attribute with an
 attribute-name of "Path", set the cookie's path to attribute-
 value of the last attribute in the cookie-attribute-list with an
 attribute-name of "Path". Otherwise, set cookie's path to the
 default-path of the request-uri.
 8. If the cookie-attribute-list contains an attribute with an
 attribute-name of "Secure", set the cookie's secure-only-flag to
 true. Otherwise, set cookie's secure-only-flag to false.
 9. If the cookie-attribute-list contains an attribute with an
 attribute-name of "HttpOnly", set the cookie's http-only-flag to
 true. Otherwise, set cookie's http-only-flag to false.
 10. If the cookie was received from a "non-HTTP" API and the
 cookie's http-only-flag is set, abort these steps and ignore the
 cookie entirely.
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 11. If the cookie store contains a cookie with the same name,
 domain, and path as the newly created cookie:
 1. Let old-cookie be the existing cookie with the same name,
 domain, and path as the newly created cookie. (Notice that
 this algorithm maintains the invariant that there is at most
 one such cookie.)
 2. If the newly created cookie was received from a "non-HTTP"
 API and the old-cookie's http-only-flag is set, abort these
 steps and ignore the newly created cookie entirely.
 3. Update the creation-time of the newly created cookie to
 match the creation-time of the old-cookie.
 4. Remove the old-cookie from the cookie store.
 12. Insert the newly created cookie into the cookie store.
 A cookie is "expired" if the cookie has an expiry date in the past.
 The user agent MUST evict all expired cookies from the cookie store
 if, at any time, an expired cookie exists in the cookie store.
 At any time, the user agent MAY "remove excess cookies" from the
 cookie store if the number of cookies sharing a domain field exceeds
 some implementation defined upper bound (such as 50 cookies).
 At any time, the user agent MAY "remove excess cookies" from the
 cookie store if the cookie store exceeds some predetermined upper
 bound (such as 3000 cookies).
 When the user agent removes excess cookies from the cookie store, the
 user agent MUST evict cookies in the following priority order:
 1. Expired cookies.
 2. Cookies that share a domain field with more than a predetermined
 number of other cookies.
 3. All cookies.
 If two cookies have the same removal priority, the user agent MUST
 evict the cookie with the earliest last-access date first.
 When "the current session is over" (as defined by the user agent),
 the user agent MUST remove from the cookie store all cookies with the
 persistent-flag set to false.
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5.4. The Cookie Header
 The user agent includes stored cookies in the Cookie HTTP request
 header.
 When the user agent generates an HTTP request, the user agent MUST
 NOT attach more than one Cookie header field.
 A user agent MAY omit the Cookie header in its entirety. For
 example, the user agent might wish to block sending cookies during
 "third-party" requests.
 If the user agent does attach a Cookie header field to an HTTP
 request, the user agent MUST send the cookie-string (defined below)
 as the value of the header field.
 The user agent MUST use an algorithm equivalent to the following
 algorithm to compute the "cookie-string" from a cookie store and a
 request-uri:
 1. Let cookie-list be the set of cookies from the cookie store that
 meet all of the following requirements:
 * Either:
 The cookie's host-only-flag is true and the canonicalized
 request-host is identical to the cookie's domain.
 Or:
 The cookie's host-only-flag is false and the canonicalized
 request-host domain-matches cookie's domain.
 * The request-uri's path path-matches cookie's path.
 * If the cookie's secure-only-flag is true, then the request-
 uri's scheme must denote a "secure" protocol (as defined by
 the user agent).
 NOTE: The notion of a "secure" protocol is not defined by
 this document. Typically, user agents consider a protocol
 secure if the protocol makes use of transport-layer
 security, such as SSL or TLS. For example, most user
 agents consider "https" to be a scheme that denotes a
 secure protocol.
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 * If the cookie's http-only-flag is true, then exclude the
 cookie if the cookie-string is being generated for a "non-
 HTTP" API (as defined by the user agent).
 2. The user agent SHOULD sort the cookie-list in the following
 order:
 * Cookies with longer paths are listed before cookies with
 shorter paths.
 * Among cookies that have equal length path fields, cookies with
 earlier creation-times are listed before cookies with later
 creation-times.
 NOTE: Not all user agents sort the cookie-list in this order, but
 this order reflects common practice when this document was
 written, and, historically, there have been servers that
 (erroneously) depended on this order.
 3. Update the last-access-time of each cookie in the cookie-list to
 the current date and time.
 4. Serialize the cookie-list into a cookie-string by processing each
 cookie in the cookie-list in order:
 1. Output the cookie's name, the %x3D ("=") character, and the
 cookie's value.
 2. If there is an unprocessed cookie in the cookie-list, output
 the characters %x3B and %x20 ("; ").
 NOTE: Despite its name, the cookie-string is actually a sequence of
 octets, not a sequence of characters. To convert the cookie-string
 (or components thereof) into a sequence of characters (e.g., for
 presentation to the user), the user agent might wish use the UTF-8
 character encoding [RFC3629] to decode the octet sequence.
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. Implementation Considerations
6.1. Limits
 Practical user agent implementations have limits on the number and
 size of cookies that they can store. General-use user agents SHOULD
 provide each of the following minimum capabilities:
 o At least 4096 bytes per cookie (as measured by the sum of the
 length of the cookie's name, value, and attributes).
 o At least 50 cookies per domain.
 o At least 3000 cookies total.
 Servers SHOULD use as few and as small cookies as possible to avoid
 reaching these implementation limits and to minimize network
 bandwidth due to the Cookie header being included in every request.
 Servers SHOULD gracefully degrade if the user agent fails to return
 one or more cookies in the Cookie header because the user agent might
 evict any cookie at any time on orders from the user.
6.2. Application Programming Interfaces
 One reason the Cookie and Set-Cookie headers uses such esoteric
 syntax is because many platforms (both in servers and user agents)
 provide a string-based application programing interface (API) to
 cookies, requiring application-layer programmers to generate and
 parse the syntax used by the Cookie and Set-Cookie headers, which
 many programmers have done incorrectly, resulting in interoperability
 problems.
 Instead of providing string-based APIs to cookies, platforms would be
 well-served by providing more semantic APIs. It is beyond the scope
 of this document to recommend specific API designs, but there are
 clear benefits to accepting an abstract "Date" object instead of a
 serialized date string.
6.3. IDNA dependency and migration
 IDNA2008 [RFC5890] supersedes IDNA2003 [RFC3490]. However, there are
 differences between the two specifications, and thus there can be
 differences in processing (e.g. converting) domain name labels that
 have been registered under one from those registered under the other.
 There will be a transition period of some time during which IDNA2003-
 based domain name labels will exist in the wild. User agents SHOULD
 implement IDNA2008 [RFC5890] and MAY implement [UTS46] or [RFC5895]
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 in order to facilitate their IDNA transition. If a user agent does
 not implement IDNA2008, the user agent MUST implement IDNA2003
 [RFC3490].
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. Privacy Considerations
 Cookies are often criticized for letting servers track users. For
 example, a number of "web analytics" companies use cookies to
 recognize when a user returns to a web site or visits another web
 site. Although cookies are not the only mechanism servers can use to
 track users across HTTP requests, cookies facilitate tracking because
 they are persistent across user agent sessions and can be shared
 between hosts.
7.1. Third-Party Cookies
 Particularly worrisome are so-called "third-party" cookies. In
 rendering an HTML document, a user agent often requests resources
 from other servers (such as advertising networks). These third-party
 servers can use cookies to track the user even if the user never
 visits the server directly.
 Some user agents restrict how third-party cookies behave. For
 example, some of these user agents refuse to send the Cookie header
 in third-party requests. Others refuse to process the Set-Cookie
 header in responses to third-party requests. User agents vary widely
 in their third-party cookie policies. This document grants user
 agents wide latitude to experiment with third-party cookie policies
 that balance the privacy and compatibility needs of their users.
 However, this document does not endorse any particular third-party
 cookie policy.
 Third-party cookie blocking policies are often ineffective at
 achieving their privacy goals if servers attempt to work around their
 restrictions to track users. In particular, two collaborating
 servers can often track users without using cookies at all by
 injecting identifying information into dynamic URLs.
7.2. User Controls
 User agents should provide users with a mechanism for managing the
 cookies stored in the cookie store. For example, a user agent might
 let users delete all cookies received during a specified time period
 or all the cookies related to a particular domain. In addition, many
 user agents include a user interface element that lets users examine
 the cookies stored in their cookie store.
 User agents should provide users with a mechanism for disabling
 cookies. When cookies are disabled, the user agent MUST NOT include
 a Cookie header in outbound HTTP requests and the user agent MUST NOT
 process Set-Cookie headers in inbound HTTP responses.
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 Some user agents provide users the option of preventing persistent
 storage of cookies across sessions. When configured thusly, user
 agents MUST treat all received cookies as if the persistent-flag were
 set to false.
 Some user agents provide users with the ability to approve individual
 writes to the cookie store. In many common usage scenarios, these
 controls generate a large number of prompts. However, some privacy-
 conscious users find these controls useful nonetheless.
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. Security Considerations
8.1. Overview
 Cookies have a number of security pitfalls. This section overviews a
 few of the more salient issues.
 In particular, cookies encourage developers to rely on ambient
 authority for authentication, often becoming vulnerable to attacks
 such as cross-site request forgery [CSRF]. Also, when storing
 session identifiers in cookies, developers often create session
 fixation vulnerabilities.
 Transport-layer encryption, such as that employed in HTTPS, is
 insufficient to prevent a network attacker from obtaining or altering
 a victim's cookies because the cookie protocol itself has various
 vulnerabilities (see "Weak Confidentiality" and "Weak Integrity",
 below). In addition, by default, cookies do not provide
 confidentiality or integrity from network attackers, even when used
 in conjunction with HTTPS.
8.2. Ambient Authority
 A server that uses cookies to authenticate users can suffer security
 vulnerabilities because some user agents let remote parties issue
 HTTP requests from the user agent (e.g., via HTTP redirects or HTML
 forms). When issuing those requests, user agents attach cookies even
 if the remote party does not know the contents of the cookies,
 potentially letting the remote party exercise authority at an unwary
 server.
 Although this security concern goes by a number of names (e.g.,
 cross-site request forgery, confused deputy), the issue stems from
 cookies being a form of ambient authority. Cookies encourage server
 operators to separate designation (in the form of URLs) from
 authorization (in the form of cookies). Consequently, the user agent
 might supply the authorization for a resource designated by the
 attacker, possibly causing the server or its clients to undertake
 actions designated by the attacker as though they were authorized by
 the user.
 Instead of using cookies for authorization, server operators might
 wish to consider entangling designation and authorization by treating
 URLs as capabilities. Instead of storing secrets in cookies, this
 approach stores secrets in URLs, requiring the remote entity to
 supply the secret itself. Although this approach is not a panacea,
 judicious application of these principles can lead to more robust
 security.
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8.3. Clear Text
 Unless sent over a secure channel (such as TLS), the information in
 the Cookie and Set-Cookie headers is transmitted in the clear.
 1. All sensitive information conveyed in these headers is exposed to
 an eavesdropper.
 2. A malicious intermediary could alter the headers as they travel
 in either direction, with unpredictable results.
 3. A malicious client could alter the Cookie header before
 transmission, with unpredictable results.
 Servers SHOULD encrypt and sign the contents of cookies when
 transmitting them to the user agent (even when sending the cookies
 over a secure channel). However, encrypting and signing cookie
 contents does not prevent an attacker from transplanting a cookie
 from one user agent to another or from replaying the cookie at a
 later time.
 In addition to encrypting and signing the contents of every cookie,
 servers that require a higher level of security SHOULD use the Cookie
 and Set-Cookie headers only over a secure channel. When using
 cookies over a secure channel, servers SHOULD set the Secure
 attribute (see Section 4.1.2.5) for every cookie. If a server does
 not set the Secure attribute, the protection provided by the secure
 channel will be largely moot.
8.4. Session Identifiers
 Instead of storing session information directly in a cookie (where it
 might be exposed to or replayed by an attacker), servers commonly
 store a nonce (or "session identifier") in a cookie. When the server
 receives an HTTP request with a nonce, the server can look up state
 information associated with the cookie using the nonce as a key.
 Using session identifier cookies limits the damage an attacker can
 cause if the attacker learns the contents of a cookie because the
 nonce is useful only for interacting with the server (unlike non-
 nonce cookie content, which might itself be sensitive). Furthermore,
 using a single nonce prevents an attacker from "splicing" together
 cookie content from two interactions with the server, which could
 cause the server to behave unexpectedly.
 Using session identifiers is not without risk. For example, the
 server SHOULD take care to avoid "session fixation" vulnerabilities.
 A session fixation attack proceeds in three steps. First, the
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 attacker transplants a session identifier from his or her user agent
 to the victim's user agent. Second, the victim uses that session
 identifier to interact with the server, possibly imbuing the session
 identifier with the user's credentials or confidential information.
 Third, the attacker uses the session identifier to interact with
 server directly, possibly obtaining the user's authority or
 confidential information.
8.5. Weak Confidentiality
 Cookies do not provide isolation by port. If a cookie is readable by
 a service running on one port, the cookie is also readable by a
 service running on another port of the same server. If a cookie is
 writable by a service on one port, the cookie is also writable by a
 service running on another port of the same server. For this reason,
 servers SHOULD NOT both run mutually distrusting services on
 different ports of the same host and use cookies to store security-
 sensitive information.
 Cookies do not provide isolation by scheme. Although most commonly
 used with the http and https schemes, the cookies for a given host
 might also be available to other schemes, such as ftp and gopher.
 Although this lack of isolation by scheme is most apparent in non-
 HTTP APIs that permit access to cookies (e.g., HTML's document.cookie
 API), the lack of isolation by scheme is actually present in
 requirements for processing cookies themselves (e.g., consider
 retrieving a URI with the gopher scheme via HTTP).
 Cookies do not always provide isolation by path. Although the
 network-level protocol does not send cookies stored for one path to
 another, some user agents expose cookies via non-HTTP APIs, such as
 HTML's document.cookie API. Because some of these user agents (e.g.,
 web browsers) do not isolate resources received from different paths,
 a resource retrieved from one path might be able to access cookies
 stored for another path.
8.6. Weak Integrity
 Cookies do not provide integrity guarantees for sibling domains (and
 their subdomains). For example, consider foo.example.com and
 bar.example.com. The foo.example.com server can set a cookie with a
 Domain attribute of "example.com" (possibly overwriting an existing
 "example.com" cookie set by bar.example.com), and the user agent will
 include that cookie in HTTP requests to bar.example.com. In the
 worst case, bar.example.com will be unable to distinguish this cookie
 from a cookie it set itself. The foo.example.com server might be
 able to leverage this ability to mount an attack against
 bar.example.com.
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 Even though the Set-Cookie header supports the Path attribute, the
 Path attribute does not provide any integrity protection because the
 user agent will accept an arbitrary Path attribute in a Set-Cookie
 header. For example, an HTTP response to a request for
 http://example.com/foo/bar can set a cookie with a Path attribute of
 "/qux". Consequently, servers SHOULD NOT both run mutually
 distrusting services on different paths of the same host and use
 cookies to store security-sensitive information.
 An active network attacker can also inject cookies into the Cookie
 header sent to https://example.com/ by impersonating a response from
 http://example.com/ and injecting a Set-Cookie header. The HTTPS
 server at example.com will be unable to distinguish these cookies
 from cookies that it set itself in an HTTPS response. An active
 network attacker might be able to leverage this ability to mount an
 attack against example.com even if example.com uses HTTPS
 exclusively.
 Servers can partially mitigate these attacks by encrypting and
 signing the contents of their cookies. However, using cryptography
 does not mitigate the issue completely because an attacker can replay
 a cookie he or she received from the authentic example.com server in
 the user's session, with unpredictable results.
 Finally, an attacker might be able to force the user agent to delete
 cookies by storing a large number of cookies. Once the user agent
 reaches its storage limit, the user agent will be forced to evict
 some cookies. Servers SHOULD NOT rely upon user agents retaining
 cookies.
8.7. Reliance on DNS
 Cookies rely upon the Domain Name System (DNS) for security. If the
 DNS is partially or fully compromised, the cookie protocol might fail
 to provide the security properties required by applications.
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. IANA Considerations
 The permanent message header field registry (see [RFC3864]) should be
 updated with the following registrations:
9.1. Cookie
 Header field name: Cookie
 Applicable protocol: http
 Status: standard
 Author/Change controller: IETF
 Specification document: this specification (Section 5.4)
9.2. Set-Cookie
 Header field name: Set-Cookie
 Applicable protocol: http
 Status: standard
 Author/Change controller: IETF
 Specification document: this specification (Section 5.2)
9.3. Cookie2
 Header field name: Cookie2
 Applicable protocol: http
 Status: obsoleted
 Author/Change controller: IETF
 Specification document: [RFC2965]
9.4. Set-Cookie2
 Header field name: Set-Cookie2
 Applicable protocol: http
 Status: obsoleted
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 Author/Change controller: IETF
 Specification document: [RFC2965]
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. References
10.1. Normative References
 [RFC1034] Mockapetris, P., "Domain names - concepts and facilities",
 STD 13, RFC 1034, November 1987.
 [RFC1123] Braden, R., "Requirements for Internet Hosts - Application
 and Support", STD 3, RFC 1123, October 1989.
 [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
 Requirement Levels", BCP 14, RFC 2119, March 1997.
 [RFC2616] Fielding, R., Gettys, J., Mogul, J., Frystyk, H.,
 Masinter, L., Leach, P., and T. Berners-Lee, "Hypertext
 Transfer Protocol -- HTTP/1.1", RFC 2616, June 1999.
 [RFC3490] Faltstrom, P., Hoffman, P., and A. Costello,
 "Internationalizing Domain Names in Applications (IDNA)",
 RFC 3490, March 2003.
 See Section 6.3 for an explanation why the normative
 reference to an obsoleted specification is needed.
 [RFC4790] Newman, C., Duerst, M., and A. Gulbrandsen, "Internet
 Application Protocol Collation Registry", RFC 4790,
 March 2007.
 [RFC5234] Crocker, D., Ed. and P. Overell, "Augmented BNF for Syntax
 Specifications: ABNF", STD 68, RFC 5234, January 2008.
 [RFC5246] Dierks, T. and E. Rescorla, "The Transport Layer Security
 (TLS) Protocol Version 1.2", RFC 5246, August 2008.
 [RFC5890] Klensin, J., "Internationalized Domain Names for
 Applications (IDNA): Definitions and Document Framework",
 RFC 5890, August 2010.
10.2. Informative References
 [RFC2109] Kristol, D. and L. Montulli, "HTTP State Management
 Mechanism", RFC 2109, February 1997.
 [RFC2965] Kristol, D. and L. Montulli, "HTTP State Management
 Mechanism", RFC 2965, October 2000.
 [RFC2818] Rescorla, E., "HTTP Over TLS", RFC 2818, May 2000.
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 [Netscape]
 Netscape Communications Corp., "Persistent Client State --
 HTTP Cookies", 1999, <http://web.archive.org/web/
 20020803110822/http://wp.netscape.com/newsref/std/
 cookie_spec.html>.
 [Kri2001] Kristol, D., "HTTP Cookies: Standards, Privacy, and
 Politics", ACM Transactions on Internet Technology Vol. 1,
 #2, November 2001, <http://arxiv.org/abs/cs.SE/0105018>.
 [RFC3629] Yergeau, F., "UTF-8, a transformation format of ISO
 10646", STD 63, RFC 3629, November 2003.
 [RFC4648] Josefsson, S., "The Base16, Base32, and Base64 Data
 Encodings", RFC 4648, October 2006.
 [RFC3864] Klyne, G., Nottingham, M., and J. Mogul, "Registration
 Procedures for Message Header Fields", BCP 90, RFC 3864,
 September 2004.
 [RFC5895] Resnick, P. and P. Hoffman, "Mapping Characters for
 Internationalized Domain Names in Applications (IDNA)
 2008", RFC 5895, September 2010.
 [UTS46] Davis, M. and M. Suignard, "Unicode IDNA Compatibility
 Processing", Unicode Technical Standards # 46, 2010,
 <http://unicode.org/reports/tr46/>.
 [CSRF] Barth, A., Jackson, C., and J. Mitchell, "Robust Defenses
 for Cross-Site Request Forgery", 2008, <http://
 www.adambarth.com/papers/2008/
 barth-jackson-mitchell-b.pdf>.
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Appendix A. Acknowledgements
 This document borrows heavily from RFC 2109 [RFC2109]. We are
 indebted to David M. Kristol and Lou Montulli for their efforts to
 specify cookies. David M. Kristol, in particular, provided
 invaluable advice on navigating the IETF process. We would also like
 to thank Thomas Broyer, Tyler Close, Bil Corry, corvid, Lisa
 Dusseault, Roy T. Fielding, Blake Frantz, Anne van Kesteren, Eran
 Hammer-Lahav, Jeff Hodges, Bjoern Hoehrmann, Achim Hoffmann, Georg
 Koppen, Dean McNamee, Alexey Melnikov, Mark Miller, Mark Pauley,
 Yngve N. Pettersen, Julian Reschke, Peter Saint-Andre, Mark Seaborn,
 Maciej Stachowiak, Daniel Stenberg, Tatsuhiro Tsujikawa, David
 Wagner, Dan Winship, and Dan Witte for their valuable feedback on
 this document.
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Author's Address
 Adam Barth
 University of California, Berkeley
 Email: abarth@eecs.berkeley.edu
 URI: http://www.adambarth.com/
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