net/cookies/canonical_cookie.h - chromium/src - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef NET_COOKIES_CANONICAL_COOKIE_H_
 #define NET_COOKIES_CANONICAL_COOKIE_H_

 #include <memory>
 #include <string>
 #include <tuple>
 #include <vector>

 #include "base/gtest_prod_util.h"
 #include "base/optional.h"
 #include "base/time/time.h"
 #include "net/base/net_export.h"
 #include "net/cookies/cookie_access_result.h"
 #include "net/cookies/cookie_constants.h"
 #include "net/cookies/cookie_inclusion_status.h"
 #include "net/cookies/cookie_options.h"
 #include "url/third_party/mozilla/url_parse.h"

 class GURL;

 namespace net {

 class ParsedCookie;
 class CanonicalCookie;

 struct CookieWithAccessResult;
 struct CookieAndLineWithAccessResult;

 using CookieList = std::vector<CanonicalCookie>;
 using CookieAndLineAccessResultList =
     std::vector<CookieAndLineWithAccessResult>;
 using CookieAccessResultList = std::vector<CookieWithAccessResult>;

 struct NET_EXPORT CookieAccessParams {
   CookieAccessParams() = delete;
   CookieAccessParams(CookieAccessSemantics access_semantics,
                      bool delegate_treats_url_as_trustworthy,
                      CookieSamePartyStatus same_party_status);

   // |access_semantics| is the access mode of the cookie access check.
   CookieAccessSemantics access_semantics = CookieAccessSemantics::UNKNOWN;
   // |delegate_treats_url_as_trustworthy| should be true iff the
   // CookieAccessDelegate has authorized access to secure cookies from URLs
   // which might not otherwise be able to do so.
   bool delegate_treats_url_as_trustworthy = false;
   // |same_party_status| indicates whether, and how, SameParty restrictions
   // should be enforced.
   CookieSamePartyStatus same_party_status =
       CookieSamePartyStatus::kNoSamePartyEnforcement;
 };

 class NET_EXPORT CanonicalCookie {
  public:
   using UniqueCookieKey = std::tuple<std::string, std::string, std::string>;

   CanonicalCookie();
   CanonicalCookie(const CanonicalCookie& other);

   // This constructor does not validate or canonicalize their inputs;
   // the resulting CanonicalCookies should not be relied on to be canonical
   // unless the caller has done appropriate validation and canonicalization
   // themselves.
   // NOTE: Prefer using CreateSanitizedCookie() over directly using this
   // constructor.
   CanonicalCookie(const std::string& name,
                   const std::string& value,
                   const std::string& domain,
                   const std::string& path,
                   const base::Time& creation,
                   const base::Time& expiration,
                   const base::Time& last_access,
                   bool secure,
                   bool httponly,
                   CookieSameSite same_site,
                   CookiePriority priority,
                   bool same_party,
                   CookieSourceScheme scheme_secure = CookieSourceScheme::kUnset,
                   int source_port = url::PORT_UNSPECIFIED);

   ~CanonicalCookie();

   // Supports the default copy constructor.

   // Creates a new |CanonicalCookie| from the |cookie_line| and the
   // |creation_time|.  Canonicalizes inputs.  May return nullptr if
   // an attribute value is invalid.  |url| must be valid.  |creation_time| may
   // not be null. Sets optional |status| to the relevant CookieInclusionStatus
   // if provided.  |server_time| indicates what the server sending us the Cookie
   // thought the current time was when the cookie was produced.  This is used to
   // adjust for clock skew between server and host.
   //
   // SameSite and HttpOnly related parameters are not checked here,
   // so creation of CanonicalCookies with e.g. SameSite=Strict from a cross-site
   // context is allowed. Create() also does not check whether |url| has a secure
   // scheme if attempting to create a Secure cookie. The Secure, SameSite, and
   // HttpOnly related parameters should be checked when setting the cookie in
   // the CookieStore.
   //
   // If a cookie is returned, |cookie->IsCanonical()| will be true.
   static std::unique_ptr<CanonicalCookie> Create(
       const GURL& url,
       const std::string& cookie_line,
       const base::Time& creation_time,
       base::Optional<base::Time> server_time,
       CookieInclusionStatus* status = nullptr);

   // Create a canonical cookie based on sanitizing the passed inputs in the
   // context of the passed URL.  Returns a null unique pointer if the inputs
   // cannot be sanitized.  If a cookie is created, |cookie->IsCanonical()|
   // will be true.
   static std::unique_ptr<CanonicalCookie> CreateSanitizedCookie(
       const GURL& url,
       const std::string& name,
       const std::string& value,
       const std::string& domain,
       const std::string& path,
       base::Time creation_time,
       base::Time expiration_time,
       base::Time last_access_time,
       bool secure,
       bool http_only,
       CookieSameSite same_site,
       CookiePriority priority,
       bool same_party);

   // FromStorage is a factory method which is meant for creating a new
   // CanonicalCookie using properties of a previously existing cookie
   // that was already ingested into the cookie store.
   // This should NOT be used to create a new CanonicalCookie that was not
   // already in the store.
   // Returns nullptr if the resulting cookie is not canonical,
   // i.e. cc->IsCanonical() returns false.
   static std::unique_ptr<CanonicalCookie> FromStorage(
       const std::string& name,
       const std::string& value,
       const std::string& domain,
       const std::string& path,
       const base::Time& creation,
       const base::Time& expiration,
       const base::Time& last_access,
       bool secure,
       bool httponly,
       CookieSameSite same_site,
       CookiePriority priority,
       bool same_party,
       CookieSourceScheme source_scheme,
       int source_port);

   // Create a CanonicalCookie that is not guaranteed to actually be Canonical
   // for tests. This factory should NOT be used in production.
   static std::unique_ptr<CanonicalCookie> CreateUnsafeCookieForTesting(
       const std::string& name,
       const std::string& value,
       const std::string& domain,
       const std::string& path,
       const base::Time& creation,
       const base::Time& expiration,
       const base::Time& last_access,
       bool secure,
       bool httponly,
       CookieSameSite same_site,
       CookiePriority priority,
       bool same_party,
       CookieSourceScheme scheme_secure = CookieSourceScheme::kUnset,
       int source_port = url::PORT_UNSPECIFIED);

   const std::string& Name() const { return name_; }
   const std::string& Value() const { return value_; }
   // We represent the cookie's host-only-flag as the absence of a leading dot in
   // Domain(). See IsDomainCookie() and IsHostCookie() below.
   // If you want the "cookie's domain" as described in RFC 6265bis, use
   // DomainWithoutDot().
   const std::string& Domain() const { return domain_; }
   const std::string& Path() const { return path_; }
   const base::Time& CreationDate() const { return creation_date_; }
   const base::Time& LastAccessDate() const { return last_access_date_; }
   bool IsPersistent() const { return !expiry_date_.is_null(); }
   const base::Time& ExpiryDate() const { return expiry_date_; }
   bool IsSecure() const { return secure_; }
   bool IsHttpOnly() const { return httponly_; }
   CookieSameSite SameSite() const { return same_site_; }
   CookiePriority Priority() const { return priority_; }
   bool IsSameParty() const { return same_party_; }

   // Returns an enum indicating the scheme of the origin that
   // set this cookie. This is not part of the cookie spec but is being used to
   // collect metrics for a potential change to the cookie spec
   // (https://tools.ietf.org/html/draft-west-cookie-incrementalism-01#section-3.4)
   CookieSourceScheme SourceScheme() const { return source_scheme_; }
   // Returns the port of the origin that originally set this cookie (the
   // source port). This is not part of the cookie spec but is being used to
   // collect metrics for a potential change to the cookie spec.
   int SourcePort() const { return source_port_; }
   bool IsDomainCookie() const {
     return !domain_.empty() && domain_[0] == '.'; }
   bool IsHostCookie() const { return !IsDomainCookie(); }

   // Returns the cookie's domain, with the leading dot removed, if present.
   // This corresponds to the "cookie's domain" as described in RFC 6265bis.
   std::string DomainWithoutDot() const;

   bool IsExpired(const base::Time& current) const {
     return !expiry_date_.is_null() && current >= expiry_date_;
   }

   // Are the cookies considered equivalent in the eyes of RFC 2965.
   // The RFC says that name must match (case-sensitive), domain must
   // match (case insensitive), and path must match (case sensitive).
   // For the case insensitive domain compare, we rely on the domain
   // having been canonicalized (in
   // GetCookieDomainWithString->CanonicalizeHost).
   bool IsEquivalent(const CanonicalCookie& ecc) const {
     // It seems like it would make sense to take secure, httponly, and samesite
     // into account, but the RFC doesn't specify this.
     // NOTE: Keep this logic in-sync with TrimDuplicateCookiesForKey().
     return (name_ == ecc.Name() && domain_ == ecc.Domain()
             && path_ == ecc.Path());
   }

   // Returns a key such that two cookies with the same UniqueKey() are
   // guaranteed to be equivalent in the sense of IsEquivalent().
   UniqueCookieKey UniqueKey() const {
     return std::make_tuple(name_, domain_, path_);
   }

   // Checks a looser set of equivalency rules than 'IsEquivalent()' in order
   // to support the stricter 'Secure' behaviors specified in Step 12 of
   // https://tools.ietf.org/html/draft-ietf-httpbis-rfc6265bis-05#section-5.4
   // which originated from the proposal in
   // https://tools.ietf.org/html/draft-ietf-httpbis-cookie-alone#section-3
   //
   // Returns 'true' if this cookie's name matches |secure_cookie|, and this
   // cookie is a domain-match for |secure_cookie| (or vice versa), and
   // |secure_cookie|'s path is "on" this cookie's path (as per 'IsOnPath()').
   //
   // Note that while the domain-match cuts both ways (e.g. 'example.com'
   // matches 'www.example.com' in either direction), the path-match is
   // unidirectional (e.g. '/login/en' matches '/login' and '/', but
   // '/login' and '/' do not match '/login/en').
   //
   // Conceptually:
   // If new_cookie.IsEquivalentForSecureCookieMatching(secure_cookie) is true,
   // this means that new_cookie would "shadow" secure_cookie: they would would
   // be indistinguishable when serialized into a Cookie header. This is
   // important because, if an attacker is attempting to set new_cookie, it
   // should not be allowed to mislead the server into using new_cookie's value
   // instead of secure_cookie's.
   //
   // The reason for the asymmetric path comparison ("cookie1=bad; path=/a/b"
   // from an insecure source is not allowed if "cookie1=good; secure; path=/a"
   // exists, but "cookie2=bad; path=/a" from an insecure source is allowed if
   // "cookie2=good; secure; path=/a/b" exists) is because cookies in the Cookie
   // header are serialized with longer path first. (See CookieSorter in
   // cookie_monster.cc.) That is, they would be serialized as "Cookie:
   // cookie1=bad; cookie1=good" in one case, and "Cookie: cookie2=good;
   // cookie2=bad" in the other case. The first scenario is not allowed because
   // the attacker injects the bad value, whereas the second scenario is ok
   // because the good value is still listed first.
   bool IsEquivalentForSecureCookieMatching(
       const CanonicalCookie& secure_cookie) const;

   void SetSourceScheme(CookieSourceScheme source_scheme) {
     source_scheme_ = source_scheme;
   }

   // Set the source port value. Performs a range check and sets the port to
   // url::PORT_INVALID if value isn't in [0,65535] or url::PORT_UNSPECIFIED.
   void SetSourcePort(int port);

   void SetLastAccessDate(const base::Time& date) {
     last_access_date_ = date;
   }
   void SetCreationDate(const base::Time& date) { creation_date_ = date; }

   // Returns true if the given |url_path| path-matches this cookie's cookie-path
   // as described in section 5.1.4 in RFC 6265. This returns true if |path_| and
   // |url_path| are identical, or if |url_path| is a subdirectory of |path_|.
   bool IsOnPath(const std::string& url_path) const;

   // This returns true if this cookie's |domain_| indicates that it can be
   // accessed by |host|.
   //
   // In the case where |domain_| has no leading dot, this is a host cookie and
   // will only domain match if |host| is identical to |domain_|.
   //
   // In the case where |domain_| has a leading dot, this is a domain cookie. It
   // will match |host| if |domain_| is a suffix of |host|, or if |domain_| is
   // exactly equal to |host| plus a leading dot.
   //
   // Note that this isn't quite the same as the "domain-match" algorithm in RFC
   // 6265bis, since our implementation uses the presence of a leading dot in the
   // |domain_| string in place of the spec's host-only-flag. That is, if
   // |domain_| has no leading dot, then we only consider it matching if |host|
   // is identical (which reflects the intended behavior when the cookie has a
   // host-only-flag), whereas the RFC also treats them as domain-matching if
   // |domain_| is a subdomain of |host|.
   bool IsDomainMatch(const std::string& host) const;

   // Returns if the cookie should be included (and if not, why) for the given
   // request |url| using the CookieInclusionStatus enum. HTTP only cookies can
   // be filter by using appropriate cookie |options|.
   //
   // PLEASE NOTE that this method does not check whether a cookie is expired or
   // not!
   CookieAccessResult IncludeForRequestURL(
       const GURL& url,
       const CookieOptions& options,
       const CookieAccessParams& params) const;

   // Returns if the cookie with given attributes can be set in context described
   // by |options| and |params|, and if no, describes why.
   CookieAccessResult IsSetPermittedInContext(
       const GURL& source_url,
       const CookieOptions& options,
       const CookieAccessParams& params,
       const std::vector<std::string>& cookieable_schemes) const;

   std::string DebugString() const;

   static std::string CanonPathWithString(const GURL& url,
                                          const std::string& path_string);

   // Returns a "null" time if expiration was unspecified or invalid.
   static base::Time CanonExpiration(const ParsedCookie& pc,
                                     const base::Time& current,
                                     const base::Time& server_time);

   // Cookie ordering methods.

   // Returns true if the cookie is less than |other|, considering only name,
   // domain and path. In particular, two equivalent cookies (see IsEquivalent())
   // are identical for PartialCompare().
   bool PartialCompare(const CanonicalCookie& other) const;

   // Return whether this object is a valid CanonicalCookie().  Invalid
   // cookies may be constructed by the detailed constructor.
   // A cookie is considered canonical if-and-only-if:
   // * It can be created by CanonicalCookie::Create, or
   // * It is identical to a cookie created by CanonicalCookie::Create except
   //   that the creation time is null, or
   // * It can be derived from a cookie created by CanonicalCookie::Create by
   //   entry into and retrieval from a cookie store (specifically, this means
   //   by the setting of an creation time in place of a null creation time, and
   //   the setting of a last access time).
   // An additional requirement on a CanonicalCookie is that if the last
   // access time is non-null, the creation time must also be non-null and
   // greater than the last access time.
   bool IsCanonical() const;

   // Returns whether the effective SameSite mode is SameSite=None (i.e. no
   // SameSite restrictions).
   bool IsEffectivelySameSiteNone(CookieAccessSemantics access_semantics =
                                      CookieAccessSemantics::UNKNOWN) const;

   CookieEffectiveSameSite GetEffectiveSameSiteForTesting(
       CookieAccessSemantics access_semantics =
           CookieAccessSemantics::UNKNOWN) const;

   // Returns the cookie line (e.g. "cookie1=value1; cookie2=value2") represented
   // by |cookies|. The string is built in the same order as the given list.
   static std::string BuildCookieLine(const CookieList& cookies);

   // Same as above but takes a CookieAccessResultList
   // (ignores the access result).
   static std::string BuildCookieLine(const CookieAccessResultList& cookies);

  private:
   FRIEND_TEST_ALL_PREFIXES(CanonicalCookieTest, TestPrefixHistograms);

   // The special cookie prefixes as defined in
   // https://tools.ietf.org/html/draft-west-cookie-prefixes
   //
   // This enum is being histogrammed; do not reorder or remove values.
   enum CookiePrefix {
     COOKIE_PREFIX_NONE = 0,
     COOKIE_PREFIX_SECURE,
     COOKIE_PREFIX_HOST,
     COOKIE_PREFIX_LAST
   };

   // Returns the CookiePrefix (or COOKIE_PREFIX_NONE if none) that
   // applies to the given cookie |name|.
   static CookiePrefix GetCookiePrefix(const std::string& name);
   // Records histograms to measure how often cookie prefixes appear in
   // the wild and how often they would be blocked.
   static void RecordCookiePrefixMetrics(CookiePrefix prefix,
                                         bool is_cookie_valid);
   // Returns true if a prefixed cookie does not violate any of the rules
   // for that cookie.
   static bool IsCookiePrefixValid(CookiePrefix prefix,
                                   const GURL& url,
                                   const ParsedCookie& parsed_cookie);
   static bool IsCookiePrefixValid(CookiePrefix prefix,
                                   const GURL& url,
                                   bool secure,
                                   const std::string& domain,
                                   const std::string& path);

   // Returns the effective SameSite mode to apply to this cookie. Depends on the
   // value of the given SameSite attribute and whether the
   // SameSiteByDefaultCookies feature is enabled, as well as the access
   // semantics of the cookie.
   // Note: If you are converting to a different representation of a cookie, you
   // probably want to use SameSite() instead of this method. Otherwise, if you
   // are considering using this method, consider whether you should use
   // IncludeForRequestURL() or IsSetPermittedInContext() instead of doing the
   // SameSite computation yourself.
   CookieEffectiveSameSite GetEffectiveSameSite(
       CookieAccessSemantics access_semantics) const;

   // Returns whether the cookie was created at most |age_threshold| ago.
   bool IsRecentlyCreated(base::TimeDelta age_threshold) const;

   // Returns true iff the cookie does not violate any rules associated with
   // creating a cookie with the SameParty attribute. In particular, if a cookie
   // has SameParty, then it must be Secure and must not be SameSite=Strict.
   static bool IsCookieSamePartyValid(const ParsedCookie& parsed_cookie);
   static bool IsCookieSamePartyValid(bool is_same_party,
                                      bool is_secure,
                                      CookieSameSite same_site);

   // Keep defaults here in sync with
   // services/network/public/interfaces/cookie_manager.mojom.
   std::string name_;
   std::string value_;
   std::string domain_;
   std::string path_;
   base::Time creation_date_;
   base::Time expiry_date_;
   base::Time last_access_date_;
   bool secure_{false};
   bool httponly_{false};
   CookieSameSite same_site_{CookieSameSite::NO_RESTRICTION};
   CookiePriority priority_{COOKIE_PRIORITY_MEDIUM};
   bool same_party_{false};
   CookieSourceScheme source_scheme_{CookieSourceScheme::kUnset};
   // This can be [0,65535], PORT_UNSPECIFIED, or PORT_INVALID.
   // PORT_UNSPECIFIED is used for cookies which already existed in the cookie
   // store prior to this change and therefore their port is unknown.
   // PORT_INVALID is an error for when an out of range port is provided.
   int source_port_{url::PORT_UNSPECIFIED};
 };

 // Used to pass excluded cookie information when it's possible that the
 // canonical cookie object may not be available.
 struct NET_EXPORT CookieAndLineWithAccessResult {
   CookieAndLineWithAccessResult();
   CookieAndLineWithAccessResult(base::Optional<CanonicalCookie> cookie,
                                 std::string cookie_string,
                                 CookieAccessResult access_result);
   CookieAndLineWithAccessResult(
       const CookieAndLineWithAccessResult& cookie_and_line_with_access_result);

   CookieAndLineWithAccessResult& operator=(
       const CookieAndLineWithAccessResult& cookie_and_line_with_access_result);

   CookieAndLineWithAccessResult(
       CookieAndLineWithAccessResult&& cookie_and_line_with_access_result);

   ~CookieAndLineWithAccessResult();

   base::Optional<CanonicalCookie> cookie;
   std::string cookie_string;
   CookieAccessResult access_result;
 };

 struct CookieWithAccessResult {
   CanonicalCookie cookie;
   CookieAccessResult access_result;
 };

 // Provided to allow gtest to create more helpful error messages, instead of
 // printing hex.
 inline void PrintTo(const CanonicalCookie& cc, std::ostream* os) {
   *os << "{ name=" << cc.Name() << ", value=" << cc.Value() << " }";
 }
 inline void PrintTo(const CookieWithAccessResult& cwar, std::ostream* os) {
   *os << "{ ";
   PrintTo(cwar.cookie, os);
   *os << ", ";
   PrintTo(cwar.access_result, os);
   *os << " }";
 }

 }  // namespace net

 #endif  // NET_COOKIES_CANONICAL_COOKIE_H_
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef NET_COOKIES_CANONICAL_COOKIE_H_
	#define NET_COOKIES_CANONICAL_COOKIE_H_

	#include <memory>
	#include <string>
	#include <tuple>
	#include <vector>

	#include "base/gtest_prod_util.h"
	#include "base/optional.h"
	#include "base/time/time.h"
	#include "net/base/net_export.h"
	#include "net/cookies/cookie_access_result.h"
	#include "net/cookies/cookie_constants.h"
	#include "net/cookies/cookie_inclusion_status.h"
	#include "net/cookies/cookie_options.h"
	#include "url/third_party/mozilla/url_parse.h"

	class GURL;

	namespace net {

	class ParsedCookie;
	class CanonicalCookie;

	struct CookieWithAccessResult;
	struct CookieAndLineWithAccessResult;

	using CookieList = std::vector<CanonicalCookie>;
	using CookieAndLineAccessResultList =
	std::vector<CookieAndLineWithAccessResult>;
	using CookieAccessResultList = std::vector<CookieWithAccessResult>;

	struct NET_EXPORT CookieAccessParams {
	CookieAccessParams() = delete;
	CookieAccessParams(CookieAccessSemantics access_semantics,
	bool delegate_treats_url_as_trustworthy,
	CookieSamePartyStatus same_party_status);

	// \|access_semantics\| is the access mode of the cookie access check.
	CookieAccessSemantics access_semantics = CookieAccessSemantics::UNKNOWN;
	// \|delegate_treats_url_as_trustworthy\| should be true iff the
	// CookieAccessDelegate has authorized access to secure cookies from URLs
	// which might not otherwise be able to do so.
	bool delegate_treats_url_as_trustworthy = false;
	// \|same_party_status\| indicates whether, and how, SameParty restrictions
	// should be enforced.
	CookieSamePartyStatus same_party_status =
	CookieSamePartyStatus::kNoSamePartyEnforcement;
	};

	class NET_EXPORT CanonicalCookie {
	public:
	using UniqueCookieKey = std::tuple<std::string, std::string, std::string>;

	CanonicalCookie();
	CanonicalCookie(const CanonicalCookie& other);

	// This constructor does not validate or canonicalize their inputs;
	// the resulting CanonicalCookies should not be relied on to be canonical
	// unless the caller has done appropriate validation and canonicalization
	// themselves.
	// NOTE: Prefer using CreateSanitizedCookie() over directly using this
	// constructor.
	CanonicalCookie(const std::string& name,
	const std::string& value,
	const std::string& domain,
	const std::string& path,
	const base::Time& creation,
	const base::Time& expiration,
	const base::Time& last_access,
	bool secure,
	bool httponly,
	CookieSameSite same_site,
	CookiePriority priority,
	bool same_party,
	CookieSourceScheme scheme_secure = CookieSourceScheme::kUnset,
	int source_port = url::PORT_UNSPECIFIED);

	~CanonicalCookie();

	// Supports the default copy constructor.

	// Creates a new \|CanonicalCookie\| from the \|cookie_line\| and the
	// \|creation_time\|. Canonicalizes inputs. May return nullptr if
	// an attribute value is invalid. \|url\| must be valid. \|creation_time\| may
	// not be null. Sets optional \|status\| to the relevant CookieInclusionStatus
	// if provided. \|server_time\| indicates what the server sending us the Cookie
	// thought the current time was when the cookie was produced. This is used to
	// adjust for clock skew between server and host.
	//
	// SameSite and HttpOnly related parameters are not checked here,
	// so creation of CanonicalCookies with e.g. SameSite=Strict from a cross-site
	// context is allowed. Create() also does not check whether \|url\| has a secure
	// scheme if attempting to create a Secure cookie. The Secure, SameSite, and
	// HttpOnly related parameters should be checked when setting the cookie in
	// the CookieStore.
	//
	// If a cookie is returned, \|cookie->IsCanonical()\| will be true.
	static std::unique_ptr<CanonicalCookie> Create(
	const GURL& url,
	const std::string& cookie_line,
	const base::Time& creation_time,
	base::Optional<base::Time> server_time,
	CookieInclusionStatus* status = nullptr);

	// Create a canonical cookie based on sanitizing the passed inputs in the
	// context of the passed URL. Returns a null unique pointer if the inputs
	// cannot be sanitized. If a cookie is created, \|cookie->IsCanonical()\|
	// will be true.
	static std::unique_ptr<CanonicalCookie> CreateSanitizedCookie(
	const GURL& url,
	const std::string& name,
	const std::string& value,
	const std::string& domain,
	const std::string& path,
	base::Time creation_time,
	base::Time expiration_time,
	base::Time last_access_time,
	bool secure,
	bool http_only,
	CookieSameSite same_site,
	CookiePriority priority,
	bool same_party);

	// FromStorage is a factory method which is meant for creating a new
	// CanonicalCookie using properties of a previously existing cookie
	// that was already ingested into the cookie store.
	// This should NOT be used to create a new CanonicalCookie that was not
	// already in the store.
	// Returns nullptr if the resulting cookie is not canonical,
	// i.e. cc->IsCanonical() returns false.
	static std::unique_ptr<CanonicalCookie> FromStorage(
	const std::string& name,
	const std::string& value,
	const std::string& domain,
	const std::string& path,
	const base::Time& creation,
	const base::Time& expiration,
	const base::Time& last_access,
	bool secure,
	bool httponly,
	CookieSameSite same_site,
	CookiePriority priority,
	bool same_party,
	CookieSourceScheme source_scheme,
	int source_port);

	// Create a CanonicalCookie that is not guaranteed to actually be Canonical
	// for tests. This factory should NOT be used in production.
	static std::unique_ptr<CanonicalCookie> CreateUnsafeCookieForTesting(
	const std::string& name,
	const std::string& value,
	const std::string& domain,
	const std::string& path,
	const base::Time& creation,
	const base::Time& expiration,
	const base::Time& last_access,
	bool secure,
	bool httponly,
	CookieSameSite same_site,
	CookiePriority priority,
	bool same_party,
	CookieSourceScheme scheme_secure = CookieSourceScheme::kUnset,
	int source_port = url::PORT_UNSPECIFIED);

	const std::string& Name() const { return name_; }
	const std::string& Value() const { return value_; }
	// We represent the cookie's host-only-flag as the absence of a leading dot in
	// Domain(). See IsDomainCookie() and IsHostCookie() below.
	// If you want the "cookie's domain" as described in RFC 6265bis, use
	// DomainWithoutDot().
	const std::string& Domain() const { return domain_; }
	const std::string& Path() const { return path_; }
	const base::Time& CreationDate() const { return creation_date_; }
	const base::Time& LastAccessDate() const { return last_access_date_; }
	bool IsPersistent() const { return !expiry_date_.is_null(); }
	const base::Time& ExpiryDate() const { return expiry_date_; }
	bool IsSecure() const { return secure_; }
	bool IsHttpOnly() const { return httponly_; }
	CookieSameSite SameSite() const { return same_site_; }
	CookiePriority Priority() const { return priority_; }
	bool IsSameParty() const { return same_party_; }

	// Returns an enum indicating the scheme of the origin that
	// set this cookie. This is not part of the cookie spec but is being used to
	// collect metrics for a potential change to the cookie spec
	// (https://tools.ietf.org/html/draft-west-cookie-incrementalism-01#section-3.4)
	CookieSourceScheme SourceScheme() const { return source_scheme_; }
	// Returns the port of the origin that originally set this cookie (the
	// source port). This is not part of the cookie spec but is being used to
	// collect metrics for a potential change to the cookie spec.
	int SourcePort() const { return source_port_; }
	bool IsDomainCookie() const {
	return !domain_.empty() && domain_[0] == '.'; }
	bool IsHostCookie() const { return !IsDomainCookie(); }

	// Returns the cookie's domain, with the leading dot removed, if present.
	// This corresponds to the "cookie's domain" as described in RFC 6265bis.
	std::string DomainWithoutDot() const;

	bool IsExpired(const base::Time& current) const {
	return !expiry_date_.is_null() && current >= expiry_date_;
	}

	// Are the cookies considered equivalent in the eyes of RFC 2965.
	// The RFC says that name must match (case-sensitive), domain must
	// match (case insensitive), and path must match (case sensitive).
	// For the case insensitive domain compare, we rely on the domain
	// having been canonicalized (in
	// GetCookieDomainWithString->CanonicalizeHost).
	bool IsEquivalent(const CanonicalCookie& ecc) const {
	// It seems like it would make sense to take secure, httponly, and samesite
	// into account, but the RFC doesn't specify this.
	// NOTE: Keep this logic in-sync with TrimDuplicateCookiesForKey().
	return (name_ == ecc.Name() && domain_ == ecc.Domain()
	&& path_ == ecc.Path());
	}

	// Returns a key such that two cookies with the same UniqueKey() are
	// guaranteed to be equivalent in the sense of IsEquivalent().
	UniqueCookieKey UniqueKey() const {
	return std::make_tuple(name_, domain_, path_);
	}

	// Checks a looser set of equivalency rules than 'IsEquivalent()' in order
	// to support the stricter 'Secure' behaviors specified in Step 12 of
	// https://tools.ietf.org/html/draft-ietf-httpbis-rfc6265bis-05#section-5.4
	// which originated from the proposal in
	// https://tools.ietf.org/html/draft-ietf-httpbis-cookie-alone#section-3
	//
	// Returns 'true' if this cookie's name matches \|secure_cookie\|, and this
	// cookie is a domain-match for \|secure_cookie\| (or vice versa), and
	// \|secure_cookie\|'s path is "on" this cookie's path (as per 'IsOnPath()').
	//
	// Note that while the domain-match cuts both ways (e.g. 'example.com'
	// matches 'www.example.com' in either direction), the path-match is
	// unidirectional (e.g. '/login/en' matches '/login' and '/', but
	// '/login' and '/' do not match '/login/en').
	//
	// Conceptually:
	// If new_cookie.IsEquivalentForSecureCookieMatching(secure_cookie) is true,
	// this means that new_cookie would "shadow" secure_cookie: they would would
	// be indistinguishable when serialized into a Cookie header. This is
	// important because, if an attacker is attempting to set new_cookie, it
	// should not be allowed to mislead the server into using new_cookie's value
	// instead of secure_cookie's.
	//
	// The reason for the asymmetric path comparison ("cookie1=bad; path=/a/b"
	// from an insecure source is not allowed if "cookie1=good; secure; path=/a"
	// exists, but "cookie2=bad; path=/a" from an insecure source is allowed if
	// "cookie2=good; secure; path=/a/b" exists) is because cookies in the Cookie
	// header are serialized with longer path first. (See CookieSorter in
	// cookie_monster.cc.) That is, they would be serialized as "Cookie:
	// cookie1=bad; cookie1=good" in one case, and "Cookie: cookie2=good;
	// cookie2=bad" in the other case. The first scenario is not allowed because
	// the attacker injects the bad value, whereas the second scenario is ok
	// because the good value is still listed first.
	bool IsEquivalentForSecureCookieMatching(
	const CanonicalCookie& secure_cookie) const;

	void SetSourceScheme(CookieSourceScheme source_scheme) {
	source_scheme_ = source_scheme;
	}

	// Set the source port value. Performs a range check and sets the port to
	// url::PORT_INVALID if value isn't in [0,65535] or url::PORT_UNSPECIFIED.
	void SetSourcePort(int port);

	void SetLastAccessDate(const base::Time& date) {
	last_access_date_ = date;
	}
	void SetCreationDate(const base::Time& date) { creation_date_ = date; }

	// Returns true if the given \|url_path\| path-matches this cookie's cookie-path
	// as described in section 5.1.4 in RFC 6265. This returns true if \|path_\| and
	// \|url_path\| are identical, or if \|url_path\| is a subdirectory of \|path_\|.
	bool IsOnPath(const std::string& url_path) const;

	// This returns true if this cookie's \|domain_\| indicates that it can be
	// accessed by \|host\|.
	//
	// In the case where \|domain_\| has no leading dot, this is a host cookie and
	// will only domain match if \|host\| is identical to \|domain_\|.
	//
	// In the case where \|domain_\| has a leading dot, this is a domain cookie. It
	// will match \|host\| if \|domain_\| is a suffix of \|host\|, or if \|domain_\| is
	// exactly equal to \|host\| plus a leading dot.
	//
	// Note that this isn't quite the same as the "domain-match" algorithm in RFC
	// 6265bis, since our implementation uses the presence of a leading dot in the
	// \|domain_\| string in place of the spec's host-only-flag. That is, if
	// \|domain_\| has no leading dot, then we only consider it matching if \|host\|
	// is identical (which reflects the intended behavior when the cookie has a
	// host-only-flag), whereas the RFC also treats them as domain-matching if
	// \|domain_\| is a subdomain of \|host\|.
	bool IsDomainMatch(const std::string& host) const;

	// Returns if the cookie should be included (and if not, why) for the given
	// request \|url\| using the CookieInclusionStatus enum. HTTP only cookies can
	// be filter by using appropriate cookie \|options\|.
	//
	// PLEASE NOTE that this method does not check whether a cookie is expired or
	// not!
	CookieAccessResult IncludeForRequestURL(
	const GURL& url,
	const CookieOptions& options,
	const CookieAccessParams& params) const;

	// Returns if the cookie with given attributes can be set in context described
	// by \|options\| and \|params\|, and if no, describes why.
	CookieAccessResult IsSetPermittedInContext(
	const GURL& source_url,
	const CookieOptions& options,
	const CookieAccessParams& params,
	const std::vector<std::string>& cookieable_schemes) const;

	std::string DebugString() const;

	static std::string CanonPathWithString(const GURL& url,
	const std::string& path_string);

	// Returns a "null" time if expiration was unspecified or invalid.
	static base::Time CanonExpiration(const ParsedCookie& pc,
	const base::Time& current,
	const base::Time& server_time);

	// Cookie ordering methods.

	// Returns true if the cookie is less than \|other\|, considering only name,
	// domain and path. In particular, two equivalent cookies (see IsEquivalent())
	// are identical for PartialCompare().
	bool PartialCompare(const CanonicalCookie& other) const;

	// Return whether this object is a valid CanonicalCookie(). Invalid
	// cookies may be constructed by the detailed constructor.
	// A cookie is considered canonical if-and-only-if:
	// * It can be created by CanonicalCookie::Create, or
	// * It is identical to a cookie created by CanonicalCookie::Create except
	// that the creation time is null, or
	// * It can be derived from a cookie created by CanonicalCookie::Create by
	// entry into and retrieval from a cookie store (specifically, this means
	// by the setting of an creation time in place of a null creation time, and
	// the setting of a last access time).
	// An additional requirement on a CanonicalCookie is that if the last
	// access time is non-null, the creation time must also be non-null and
	// greater than the last access time.
	bool IsCanonical() const;

	// Returns whether the effective SameSite mode is SameSite=None (i.e. no
	// SameSite restrictions).
	bool IsEffectivelySameSiteNone(CookieAccessSemantics access_semantics =
	CookieAccessSemantics::UNKNOWN) const;

	CookieEffectiveSameSite GetEffectiveSameSiteForTesting(
	CookieAccessSemantics access_semantics =
	CookieAccessSemantics::UNKNOWN) const;

	// Returns the cookie line (e.g. "cookie1=value1; cookie2=value2") represented
	// by \|cookies\|. The string is built in the same order as the given list.
	static std::string BuildCookieLine(const CookieList& cookies);

	// Same as above but takes a CookieAccessResultList
	// (ignores the access result).
	static std::string BuildCookieLine(const CookieAccessResultList& cookies);

	private:
	FRIEND_TEST_ALL_PREFIXES(CanonicalCookieTest, TestPrefixHistograms);

	// The special cookie prefixes as defined in
	// https://tools.ietf.org/html/draft-west-cookie-prefixes
	//
	// This enum is being histogrammed; do not reorder or remove values.
	enum CookiePrefix {
	COOKIE_PREFIX_NONE = 0,
	COOKIE_PREFIX_SECURE,
	COOKIE_PREFIX_HOST,
	COOKIE_PREFIX_LAST
	};

	// Returns the CookiePrefix (or COOKIE_PREFIX_NONE if none) that
	// applies to the given cookie \|name\|.
	static CookiePrefix GetCookiePrefix(const std::string& name);
	// Records histograms to measure how often cookie prefixes appear in
	// the wild and how often they would be blocked.
	static void RecordCookiePrefixMetrics(CookiePrefix prefix,
	bool is_cookie_valid);
	// Returns true if a prefixed cookie does not violate any of the rules
	// for that cookie.
	static bool IsCookiePrefixValid(CookiePrefix prefix,
	const GURL& url,
	const ParsedCookie& parsed_cookie);
	static bool IsCookiePrefixValid(CookiePrefix prefix,
	const GURL& url,
	bool secure,
	const std::string& domain,
	const std::string& path);

	// Returns the effective SameSite mode to apply to this cookie. Depends on the
	// value of the given SameSite attribute and whether the
	// SameSiteByDefaultCookies feature is enabled, as well as the access
	// semantics of the cookie.
	// Note: If you are converting to a different representation of a cookie, you
	// probably want to use SameSite() instead of this method. Otherwise, if you
	// are considering using this method, consider whether you should use
	// IncludeForRequestURL() or IsSetPermittedInContext() instead of doing the
	// SameSite computation yourself.
	CookieEffectiveSameSite GetEffectiveSameSite(
	CookieAccessSemantics access_semantics) const;

	// Returns whether the cookie was created at most \|age_threshold\| ago.
	bool IsRecentlyCreated(base::TimeDelta age_threshold) const;

	// Returns true iff the cookie does not violate any rules associated with
	// creating a cookie with the SameParty attribute. In particular, if a cookie
	// has SameParty, then it must be Secure and must not be SameSite=Strict.
	static bool IsCookieSamePartyValid(const ParsedCookie& parsed_cookie);
	static bool IsCookieSamePartyValid(bool is_same_party,
	bool is_secure,
	CookieSameSite same_site);

	// Keep defaults here in sync with
	// services/network/public/interfaces/cookie_manager.mojom.
	std::string name_;
	std::string value_;
	std::string domain_;
	std::string path_;
	base::Time creation_date_;
	base::Time expiry_date_;
	base::Time last_access_date_;
	bool secure_{false};
	bool httponly_{false};
	CookieSameSite same_site_{CookieSameSite::NO_RESTRICTION};
	CookiePriority priority_{COOKIE_PRIORITY_MEDIUM};
	bool same_party_{false};
	CookieSourceScheme source_scheme_{CookieSourceScheme::kUnset};
	// This can be [0,65535], PORT_UNSPECIFIED, or PORT_INVALID.
	// PORT_UNSPECIFIED is used for cookies which already existed in the cookie
	// store prior to this change and therefore their port is unknown.
	// PORT_INVALID is an error for when an out of range port is provided.
	int source_port_{url::PORT_UNSPECIFIED};
	};

	// Used to pass excluded cookie information when it's possible that the
	// canonical cookie object may not be available.
	struct NET_EXPORT CookieAndLineWithAccessResult {
	CookieAndLineWithAccessResult();
	CookieAndLineWithAccessResult(base::Optional<CanonicalCookie> cookie,
	std::string cookie_string,
	CookieAccessResult access_result);
	CookieAndLineWithAccessResult(
	const CookieAndLineWithAccessResult& cookie_and_line_with_access_result);

	CookieAndLineWithAccessResult& operator=(
	const CookieAndLineWithAccessResult& cookie_and_line_with_access_result);

	CookieAndLineWithAccessResult(
	CookieAndLineWithAccessResult&& cookie_and_line_with_access_result);

	~CookieAndLineWithAccessResult();

	base::Optional<CanonicalCookie> cookie;
	std::string cookie_string;
	CookieAccessResult access_result;
	};

	struct CookieWithAccessResult {
	CanonicalCookie cookie;
	CookieAccessResult access_result;
	};

	// Provided to allow gtest to create more helpful error messages, instead of
	// printing hex.
	inline void PrintTo(const CanonicalCookie& cc, std::ostream* os) {
	*os << "{ name=" << cc.Name() << ", value=" << cc.Value() << " }";
	}
	inline void PrintTo(const CookieWithAccessResult& cwar, std::ostream* os) {
	*os << "{ ";
	PrintTo(cwar.cookie, os);
	*os << ", ";
	PrintTo(cwar.access_result, os);
	*os << " }";
	}

	} // namespace net

	#endif // NET_COOKIES_CANONICAL_COOKIE_H_