// Copyright 2012 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Portions of this code based on Mozilla: // (netwerk/cookie/src/nsCookieService.cpp) /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is mozilla.org code. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 2003 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Daniel Witte (dwitte@stanford.edu) * Michiel van Leeuwen (mvl@exedo.nl) * * Alternatively, the contents of this file may be used under the terms of * either the GNU General Public License Version 2 or later (the "GPL"), or * the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include "net/cookies/canonical_cookie.h" #include #include #include "base/containers/contains.h" #include "base/feature_list.h" #include "base/format_macros.h" #include "base/logging.h" #include "base/memory/ptr_util.h" #include "base/metrics/histogram_functions.h" #include "base/metrics/histogram_macros.h" #include "base/strings/strcat.h" #include "base/strings/string_number_conversions.h" #include "base/strings/string_piece.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "net/base/features.h" #include "net/base/url_util.h" #include "net/cookies/cookie_constants.h" #include "net/cookies/cookie_inclusion_status.h" #include "net/cookies/cookie_options.h" #include "net/cookies/cookie_util.h" #include "net/cookies/parsed_cookie.h" #include "third_party/abseil-cpp/absl/types/optional.h" #include "url/gurl.h" #include "url/url_canon.h" #include "url/url_util.h" using base::Time; namespace net { static constexpr int kMinutesInTwelveHours = 12 * 60; static constexpr int kMinutesInTwentyFourHours = 24 * 60; namespace { // Determine the cookie domain to use for setting the specified cookie. bool GetCookieDomain(const GURL& url, const ParsedCookie& pc, CookieInclusionStatus& status, std::string* result) { std::string domain_string; if (pc.HasDomain()) domain_string = pc.Domain(); return cookie_util::GetCookieDomainWithString(url, domain_string, status, result); } // Compares cookies using name, domain and path, so that "equivalent" cookies // (per RFC 2965) are equal to each other. int PartialCookieOrdering(const CanonicalCookie& a, const CanonicalCookie& b) { int diff = a.Name().compare(b.Name()); if (diff != 0) return diff; diff = a.Domain().compare(b.Domain()); if (diff != 0) return diff; return a.Path().compare(b.Path()); } void AppendCookieLineEntry(const CanonicalCookie& cookie, std::string* cookie_line) { if (!cookie_line->empty()) *cookie_line += "; "; // In Mozilla, if you set a cookie like "AAA", it will have an empty token // and a value of "AAA". When it sends the cookie back, it will send "AAA", // so we need to avoid sending "=AAA" for a blank token value. if (!cookie.Name().empty()) *cookie_line += cookie.Name() + "="; *cookie_line += cookie.Value(); } // Captures Strict -> Lax context downgrade with Strict cookie bool IsBreakingStrictToLaxDowngrade( CookieOptions::SameSiteCookieContext::ContextType context, CookieOptions::SameSiteCookieContext::ContextType schemeful_context, CookieEffectiveSameSite effective_same_site, bool is_cookie_being_set) { if (context == CookieOptions::SameSiteCookieContext::ContextType::SAME_SITE_STRICT && schemeful_context == CookieOptions::SameSiteCookieContext::ContextType::SAME_SITE_LAX && effective_same_site == CookieEffectiveSameSite::STRICT_MODE) { // This downgrade only applies when a SameSite=Strict cookie is being sent. // A Strict -> Lax downgrade will not affect a Strict cookie which is being // set because it will be set in either context. return !is_cookie_being_set; } return false; } // Captures Strict -> Cross-site context downgrade with {Strict, Lax} cookie // Captures Strict -> Lax Unsafe context downgrade with {Strict, Lax} cookie. // This is treated as a cross-site downgrade due to the Lax Unsafe context // behaving like cross-site. bool IsBreakingStrictToCrossDowngrade( CookieOptions::SameSiteCookieContext::ContextType context, CookieOptions::SameSiteCookieContext::ContextType schemeful_context, CookieEffectiveSameSite effective_same_site) { bool breaking_schemeful_context = schemeful_context == CookieOptions::SameSiteCookieContext::ContextType::CROSS_SITE || schemeful_context == CookieOptions::SameSiteCookieContext::ContextType:: SAME_SITE_LAX_METHOD_UNSAFE; bool strict_lax_enforcement = effective_same_site == CookieEffectiveSameSite::STRICT_MODE || effective_same_site == CookieEffectiveSameSite::LAX_MODE || // Treat LAX_MODE_ALLOW_UNSAFE the same as LAX_MODE for the purposes of // our SameSite enforcement check. effective_same_site == CookieEffectiveSameSite::LAX_MODE_ALLOW_UNSAFE; if (context == CookieOptions::SameSiteCookieContext::ContextType::SAME_SITE_STRICT && breaking_schemeful_context && strict_lax_enforcement) { return true; } return false; } // Captures Lax -> Cross context downgrade with {Strict, Lax} cookies. // Ignores Lax Unsafe context. bool IsBreakingLaxToCrossDowngrade( CookieOptions::SameSiteCookieContext::ContextType context, CookieOptions::SameSiteCookieContext::ContextType schemeful_context, CookieEffectiveSameSite effective_same_site, bool is_cookie_being_set) { bool lax_enforcement = effective_same_site == CookieEffectiveSameSite::LAX_MODE || // Treat LAX_MODE_ALLOW_UNSAFE the same as LAX_MODE for the purposes of // our SameSite enforcement check. effective_same_site == CookieEffectiveSameSite::LAX_MODE_ALLOW_UNSAFE; if (context == CookieOptions::SameSiteCookieContext::ContextType::SAME_SITE_LAX && schemeful_context == CookieOptions::SameSiteCookieContext::ContextType::CROSS_SITE) { // For SameSite=Strict cookies this downgrade only applies when it is being // set. A Lax -> Cross downgrade will not affect a Strict cookie which is // being sent because it wouldn't be sent in either context. return effective_same_site == CookieEffectiveSameSite::STRICT_MODE ? is_cookie_being_set : lax_enforcement; } return false; } void ApplySameSiteCookieWarningToStatus( CookieSameSite samesite, CookieEffectiveSameSite effective_samesite, bool is_secure, const CookieOptions::SameSiteCookieContext& same_site_context, CookieInclusionStatus* status, bool is_cookie_being_set) { if (samesite == CookieSameSite::UNSPECIFIED && same_site_context.GetContextForCookieInclusion() < CookieOptions::SameSiteCookieContext::ContextType::SAME_SITE_LAX) { status->AddWarningReason( CookieInclusionStatus::WARN_SAMESITE_UNSPECIFIED_CROSS_SITE_CONTEXT); } if (effective_samesite == CookieEffectiveSameSite::LAX_MODE_ALLOW_UNSAFE && same_site_context.GetContextForCookieInclusion() == CookieOptions::SameSiteCookieContext::ContextType:: SAME_SITE_LAX_METHOD_UNSAFE) { // This warning is more specific so remove the previous, more general, // warning. status->RemoveWarningReason( CookieInclusionStatus::WARN_SAMESITE_UNSPECIFIED_CROSS_SITE_CONTEXT); status->AddWarningReason( CookieInclusionStatus::WARN_SAMESITE_UNSPECIFIED_LAX_ALLOW_UNSAFE); } if (samesite == CookieSameSite::NO_RESTRICTION && !is_secure) { status->AddWarningReason( CookieInclusionStatus::WARN_SAMESITE_NONE_INSECURE); } // Add a warning if the cookie would be accessible in // |same_site_context|::context but not in // |same_site_context|::schemeful_context. if (IsBreakingStrictToLaxDowngrade(same_site_context.context(), same_site_context.schemeful_context(), effective_samesite, is_cookie_being_set)) { status->AddWarningReason( CookieInclusionStatus::WARN_STRICT_LAX_DOWNGRADE_STRICT_SAMESITE); } else if (IsBreakingStrictToCrossDowngrade( same_site_context.context(), same_site_context.schemeful_context(), effective_samesite)) { // Which warning to apply depends on the SameSite value. if (effective_samesite == CookieEffectiveSameSite::STRICT_MODE) { status->AddWarningReason( CookieInclusionStatus::WARN_STRICT_CROSS_DOWNGRADE_STRICT_SAMESITE); } else { // LAX_MODE or LAX_MODE_ALLOW_UNSAFE. status->AddWarningReason( CookieInclusionStatus::WARN_STRICT_CROSS_DOWNGRADE_LAX_SAMESITE); } } else if (IsBreakingLaxToCrossDowngrade( same_site_context.context(), same_site_context.schemeful_context(), effective_samesite, is_cookie_being_set)) { // Which warning to apply depends on the SameSite value. if (effective_samesite == CookieEffectiveSameSite::STRICT_MODE) { status->AddWarningReason( CookieInclusionStatus::WARN_LAX_CROSS_DOWNGRADE_STRICT_SAMESITE); } else { // LAX_MODE or LAX_MODE_ALLOW_UNSAFE. // This warning applies to both set/send. status->AddWarningReason( CookieInclusionStatus::WARN_LAX_CROSS_DOWNGRADE_LAX_SAMESITE); } } // Apply warning for whether inclusion was changed by considering redirects // for the SameSite context calculation. This does not look at the actual // inclusion or exclusion, but only at whether the inclusion differs between // considering redirects and not. using ContextDowngradeType = CookieOptions::SameSiteCookieContext:: ContextMetadata::ContextDowngradeType; const auto& metadata = same_site_context.GetMetadataForCurrentSchemefulMode(); bool apply_cross_site_redirect_downgrade_warning = false; switch (effective_samesite) { case CookieEffectiveSameSite::STRICT_MODE: // Strict contexts are all normalized to lax for cookie writes, so a // strict-to-{lax,cross} downgrade cannot occur for response cookies. apply_cross_site_redirect_downgrade_warning = is_cookie_being_set ? metadata.cross_site_redirect_downgrade == ContextDowngradeType::kLaxToCross : (metadata.cross_site_redirect_downgrade == ContextDowngradeType::kStrictToLax || metadata.cross_site_redirect_downgrade == ContextDowngradeType::kStrictToCross); break; case CookieEffectiveSameSite::LAX_MODE: case CookieEffectiveSameSite::LAX_MODE_ALLOW_UNSAFE: // Note that a lax-to-cross downgrade can only happen for response // cookies, because a laxly same-site context only happens for a safe // top-level cross-site request, which cannot be downgraded due to a // cross-site redirect to a non-top-level or unsafe cross-site request. apply_cross_site_redirect_downgrade_warning = metadata.cross_site_redirect_downgrade == (is_cookie_being_set ? ContextDowngradeType::kLaxToCross : ContextDowngradeType::kStrictToCross); break; default: break; } if (apply_cross_site_redirect_downgrade_warning) { status->AddWarningReason( CookieInclusionStatus:: WARN_CROSS_SITE_REDIRECT_DOWNGRADE_CHANGES_INCLUSION); } // If there are reasons to exclude the cookie other than SameSite, don't warn // about the cookie at all. status->MaybeClearSameSiteWarning(); } // Converts CookieSameSite to CookieSameSiteForMetrics by adding 1 to it. CookieSameSiteForMetrics CookieSameSiteToCookieSameSiteForMetrics( CookieSameSite enum_in) { return static_cast((static_cast(enum_in) + 1)); } // Checks if `port` is within [0,65535] or url::PORT_UNSPECIFIED. Returns `port` // if so and url::PORT_INVALID otherwise. int ValidateAndAdjustSourcePort(int port) { if ((port >= 0 && port <= 65535) || port == url::PORT_UNSPECIFIED) { // 0 would be really weird as it has a special meaning, but it's still // technically a valid tcp/ip port so we're going to accept it here. return port; } return url::PORT_INVALID; } // Tests that a cookie has the attributes for a valid __Host- prefix without // testing that the prefix is in the cookie name. bool HasValidHostPrefixAttributes(const GURL& url, bool secure, const std::string& domain, const std::string& path) { if (!secure || !url.SchemeIsCryptographic() || path != "/") return false; return domain.empty() || (url.HostIsIPAddress() && url.host() == domain); } } // namespace CookieAccessParams::CookieAccessParams(CookieAccessSemantics access_semantics, bool delegate_treats_url_as_trustworthy, CookieSamePartyStatus same_party_status) : access_semantics(access_semantics), delegate_treats_url_as_trustworthy(delegate_treats_url_as_trustworthy), same_party_status(same_party_status) {} CanonicalCookie::CanonicalCookie() = default; CanonicalCookie::CanonicalCookie(const CanonicalCookie& other) = default; CanonicalCookie::CanonicalCookie(CanonicalCookie&& other) = default; CanonicalCookie& CanonicalCookie::operator=(const CanonicalCookie& other) = default; CanonicalCookie& CanonicalCookie::operator=(CanonicalCookie&& other) = default; CanonicalCookie::CanonicalCookie( base::PassKey pass_key, std::string name, std::string value, std::string domain, std::string path, base::Time creation, base::Time expiration, base::Time last_access, base::Time last_update, bool secure, bool httponly, CookieSameSite same_site, CookiePriority priority, bool same_party, absl::optional partition_key, CookieSourceScheme source_scheme, int source_port) : name_(std::move(name)), value_(std::move(value)), domain_(std::move(domain)), path_(std::move(path)), creation_date_(creation), expiry_date_(expiration), last_access_date_(last_access), last_update_date_(last_update), secure_(secure), httponly_(httponly), same_site_(same_site), priority_(priority), same_party_(same_party), partition_key_(std::move(partition_key)), source_scheme_(source_scheme), source_port_(source_port) {} CanonicalCookie::~CanonicalCookie() = default; // static std::string CanonicalCookie::CanonPathWithString( const GURL& url, const std::string& path_string) { // The path was supplied in the cookie, we'll take it. if (!path_string.empty() && path_string[0] == '/') return path_string; // The path was not supplied in the cookie or invalid, we will default // to the current URL path. // """Defaults to the path of the request URL that generated the // Set-Cookie response, up to, but not including, the // right-most /.""" // How would this work for a cookie on /? We will include it then. const std::string& url_path = url.path(); size_t idx = url_path.find_last_of('/'); // The cookie path was invalid or a single '/'. if (idx == 0 || idx == std::string::npos) return std::string("/"); // Return up to the rightmost '/'. return url_path.substr(0, idx); } // static Time CanonicalCookie::ParseExpiration(const ParsedCookie& pc, const Time& current, const Time& server_time) { // First, try the Max-Age attribute. if (pc.HasMaxAge()) { int64_t max_age = 0; // Use the output if StringToInt64 returns true ("perfect" conversion). This // case excludes overflow/underflow, leading/trailing whitespace, non-number // strings, and empty string. (ParsedCookie trims whitespace.) if (base::StringToInt64(pc.MaxAge(), &max_age)) { // RFC 6265bis algorithm for parsing Max-Age: // "If delta-seconds is less than or equal to zero (0), let expiry- // time be the earliest representable date and time. ... " if (max_age <= 0) return Time::Min(); // "... Otherwise, let the expiry-time be the current date and time plus // delta-seconds seconds." return current + base::Seconds(max_age); } else { // If the conversion wasn't perfect, but the best-effort conversion // resulted in an overflow/underflow, use the min/max representable time. // (This is alluded to in the spec, which says the user agent MAY clip an // Expires attribute to a saturated time. We'll do the same for Max-Age.) if (max_age == std::numeric_limits::min()) return Time::Min(); if (max_age == std::numeric_limits::max()) return Time::Max(); } } // Try the Expires attribute. if (pc.HasExpires() && !pc.Expires().empty()) { // Adjust for clock skew between server and host. Time parsed_expiry = cookie_util::ParseCookieExpirationTime(pc.Expires()); if (!parsed_expiry.is_null()) { // Record metrics related to prevalence of clock skew. base::TimeDelta clock_skew = (current - server_time); // Record the magnitude (absolute value) of the skew in minutes. int clock_skew_magnitude = clock_skew.magnitude().InMinutes(); // Determine the new expiry with clock skew factored in. Time adjusted_expiry = parsed_expiry + (current - server_time); if (clock_skew.is_positive() || clock_skew.is_zero()) { UMA_HISTOGRAM_CUSTOM_COUNTS("Cookie.ClockSkew.AddMinutes", clock_skew_magnitude, 1, kMinutesInTwelveHours, 100); UMA_HISTOGRAM_CUSTOM_COUNTS("Cookie.ClockSkew.AddMinutes12To24Hours", clock_skew_magnitude, kMinutesInTwelveHours, kMinutesInTwentyFourHours, 100); // Also record the range of minutes added that allowed the cookie to // avoid expiring immediately. if (parsed_expiry <= Time::Now() && adjusted_expiry > Time::Now()) { UMA_HISTOGRAM_CUSTOM_COUNTS( "Cookie.ClockSkew.WithoutAddMinutesExpires", clock_skew_magnitude, 1, kMinutesInTwentyFourHours, 100); } } else if (clock_skew.is_negative()) { // These histograms only support positive numbers, so negative skews // will be converted to positive (via magnitude) before recording. UMA_HISTOGRAM_CUSTOM_COUNTS("Cookie.ClockSkew.SubtractMinutes", clock_skew_magnitude, 1, kMinutesInTwelveHours, 100); UMA_HISTOGRAM_CUSTOM_COUNTS( "Cookie.ClockSkew.SubtractMinutes12To24Hours", clock_skew_magnitude, kMinutesInTwelveHours, kMinutesInTwentyFourHours, 100); } // Record if we were going to expire the cookie before we added the clock // skew. UMA_HISTOGRAM_BOOLEAN( "Cookie.ClockSkew.ExpiredWithoutSkew", parsed_expiry <= Time::Now() && adjusted_expiry > Time::Now()); return adjusted_expiry; } } // Invalid or no expiration, session cookie. return Time(); } // static base::Time CanonicalCookie::ValidateAndAdjustExpiryDate( const base::Time& expiry_date, const base::Time& creation_date) { if (expiry_date.is_null()) return expiry_date; base::Time fixed_creation_date = creation_date; if (fixed_creation_date.is_null()) { // TODO(crbug.com/1264458): Push this logic into // CanonicalCookie::CreateSanitizedCookie. The four sites that call it // with a null `creation_date` (CanonicalCookie::Create cannot be called // this way) are: // * GaiaCookieManagerService::ForceOnCookieChangeProcessing // * CookiesSetFunction::Run // * cookie_store.cc::ToCanonicalCookie // * network_handler.cc::MakeCookieFromProtocolValues fixed_creation_date = base::Time::Now(); } if (base::FeatureList::IsEnabled(features::kClampCookieExpiryTo400Days)) { base::Time maximum_expiry_date = fixed_creation_date + base::Days(400); if (expiry_date > maximum_expiry_date) return maximum_expiry_date; } return expiry_date; } // static std::unique_ptr CanonicalCookie::Create( const GURL& url, const std::string& cookie_line, const base::Time& creation_time, absl::optional server_time, absl::optional cookie_partition_key, CookieInclusionStatus* status) { // Put a pointer on the stack so the rest of the function can assign to it if // the default nullptr is passed in. CookieInclusionStatus blank_status; if (status == nullptr) { status = &blank_status; } *status = CookieInclusionStatus(); // Check the URL; it may be nonsense since some platform APIs may permit // it to be specified directly. if (!url.is_valid()) { status->AddExclusionReason(CookieInclusionStatus::EXCLUDE_FAILURE_TO_STORE); return nullptr; } ParsedCookie parsed_cookie(cookie_line, status); // We record this metric before checking validity because the presence of an // HTAB will invalidate the ParsedCookie. UMA_HISTOGRAM_BOOLEAN("Cookie.NameOrValueHtab", parsed_cookie.HasInternalHtab()); if (!parsed_cookie.IsValid()) { DVLOG(net::cookie_util::kVlogSetCookies) << "WARNING: Couldn't parse cookie"; DCHECK(!status->IsInclude()); // Don't continue, because an invalid ParsedCookie doesn't have any // attributes. // TODO(chlily): Log metrics. return nullptr; } // Record warning for non-ASCII octecs in the Domain attribute. // This should lead to rejection of the cookie in the future. UMA_HISTOGRAM_BOOLEAN("Cookie.DomainHasNonASCII", parsed_cookie.HasDomain() && !base::IsStringASCII(parsed_cookie.Domain())); std::string cookie_domain; if (!GetCookieDomain(url, parsed_cookie, *status, &cookie_domain)) { DVLOG(net::cookie_util::kVlogSetCookies) << "Create() failed to get a valid cookie domain"; status->AddExclusionReason(CookieInclusionStatus::EXCLUDE_INVALID_DOMAIN); } std::string cookie_path = CanonPathWithString( url, parsed_cookie.HasPath() ? parsed_cookie.Path() : std::string()); Time cookie_server_time(creation_time); if (server_time.has_value() && !server_time->is_null()) cookie_server_time = server_time.value(); DCHECK(!creation_time.is_null()); Time cookie_expires = CanonicalCookie::ParseExpiration( parsed_cookie, creation_time, cookie_server_time); cookie_expires = ValidateAndAdjustExpiryDate(cookie_expires, creation_time); CookiePrefix prefix_case_sensitive = GetCookiePrefix(parsed_cookie.Name(), /*check_insensitively=*/false); CookiePrefix prefix_case_insensitive = GetCookiePrefix(parsed_cookie.Name(), /*check_insensitively=*/true); bool is_sensitive_prefix_valid = IsCookiePrefixValid(prefix_case_sensitive, url, parsed_cookie); bool is_insensitive_prefix_valid = IsCookiePrefixValid(prefix_case_insensitive, url, parsed_cookie); bool is_cookie_prefix_valid = base::FeatureList::IsEnabled(net::features::kCaseInsensitiveCookiePrefix) ? is_insensitive_prefix_valid : is_sensitive_prefix_valid; RecordCookiePrefixMetrics(prefix_case_sensitive, prefix_case_insensitive, is_insensitive_prefix_valid); if (parsed_cookie.Name() == "") { is_cookie_prefix_valid = !HasHiddenPrefixName(parsed_cookie.Value()); } if (!is_cookie_prefix_valid) { DVLOG(net::cookie_util::kVlogSetCookies) << "Create() failed because the cookie violated prefix rules."; status->AddExclusionReason(CookieInclusionStatus::EXCLUDE_INVALID_PREFIX); } bool is_same_party_valid = IsCookieSamePartyValid(parsed_cookie); if (!is_same_party_valid) { status->AddExclusionReason( CookieInclusionStatus::EXCLUDE_INVALID_SAMEPARTY); } bool partition_has_nonce = CookiePartitionKey::HasNonce(cookie_partition_key); bool is_partitioned_valid = IsCookiePartitionedValid(url, parsed_cookie, partition_has_nonce); if (!is_partitioned_valid) { status->AddExclusionReason( CookieInclusionStatus::EXCLUDE_INVALID_PARTITIONED); } // Collect metrics on whether usage of the Partitioned attribute is correct. // Do not include implicit nonce-based partitioned cookies in these metrics. if (parsed_cookie.IsPartitioned()) { if (!partition_has_nonce) UMA_HISTOGRAM_BOOLEAN("Cookie.IsPartitionedValid", is_partitioned_valid); } else if (!partition_has_nonce) { cookie_partition_key = absl::nullopt; } if (!status->IsInclude()) return nullptr; CookieSameSiteString samesite_string = CookieSameSiteString::kUnspecified; CookieSameSite samesite = parsed_cookie.SameSite(&samesite_string); CookieSourceScheme source_scheme = url.SchemeIsCryptographic() ? CookieSourceScheme::kSecure : CookieSourceScheme::kNonSecure; // Get the port, this will get a default value if a port isn't provided. int source_port = ValidateAndAdjustSourcePort(url.EffectiveIntPort()); auto cc = std::make_unique( base::PassKey(), parsed_cookie.Name(), parsed_cookie.Value(), cookie_domain, cookie_path, creation_time, cookie_expires, creation_time, /*last_update=*/base::Time::Now(), parsed_cookie.IsSecure(), parsed_cookie.IsHttpOnly(), samesite, parsed_cookie.Priority(), parsed_cookie.IsSameParty(), cookie_partition_key, source_scheme, source_port); // TODO(chlily): Log metrics. if (!cc->IsCanonical()) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_FAILURE_TO_STORE); return nullptr; } RecordCookieSameSiteAttributeValueHistogram(samesite_string); // These metrics capture whether or not a cookie has a Non-ASCII character in // it. UMA_HISTOGRAM_BOOLEAN("Cookie.HasNonASCII.Name", !base::IsStringASCII(cc->Name())); UMA_HISTOGRAM_BOOLEAN("Cookie.HasNonASCII.Value", !base::IsStringASCII(cc->Value())); // Check for "__" prefixed names, excluding the cookie prefixes. bool name_prefixed_with_underscores = (prefix_case_insensitive == CanonicalCookie::COOKIE_PREFIX_NONE) && base::StartsWith(parsed_cookie.Name(), "__"); UMA_HISTOGRAM_BOOLEAN("Cookie.DoubleUnderscorePrefixedName", name_prefixed_with_underscores); UMA_HISTOGRAM_ENUMERATION( "Cookie.TruncatingCharacterInCookieString", parsed_cookie.GetTruncatingCharacterInCookieStringType()); return cc; } // 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, absl::optional partition_key, CookieInclusionStatus* status) { // Put a pointer on the stack so the rest of the function can assign to it if // the default nullptr is passed in. CookieInclusionStatus blank_status; if (status == nullptr) { status = &blank_status; } *status = CookieInclusionStatus(); // Validate consistency of passed arguments. if (ParsedCookie::ParseTokenString(name) != name) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_FAILURE_TO_STORE); } else if (ParsedCookie::ParseValueString(value) != value) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_FAILURE_TO_STORE); } else if (ParsedCookie::ParseValueString(path) != path) { // NOTE: If `path` contains "terminating characters" ('\r', '\n', and // '\0'), ';', or leading / trailing whitespace, path will be rejected, // but any other control characters will just get URL-encoded below. status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_FAILURE_TO_STORE); } // Validate name and value against character set and size limit constraints. // If IsValidCookieNameValuePair identifies that `name` and/or `value` are // invalid, it will add an ExclusionReason to `status`. ParsedCookie::IsValidCookieNameValuePair(name, value, status); // Validate domain against character set and size limit constraints. bool domain_is_valid = true; if ((ParsedCookie::ParseValueString(domain) != domain)) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_INVALID_DOMAIN); domain_is_valid = false; } if (!ParsedCookie::CookieAttributeValueHasValidCharSet(domain)) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_INVALID_DOMAIN); domain_is_valid = false; } if (!ParsedCookie::CookieAttributeValueHasValidSize(domain)) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_ATTRIBUTE_VALUE_EXCEEDS_MAX_SIZE); domain_is_valid = false; } const std::string& domain_attribute = domain_is_valid ? domain : std::string(); std::string cookie_domain; // This validation step must happen before GetCookieDomainWithString, so it // doesn't fail DCHECKs. if (!cookie_util::DomainIsHostOnly(url.host())) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_INVALID_DOMAIN); } else if (!cookie_util::GetCookieDomainWithString(url, domain_attribute, *status, &cookie_domain)) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_INVALID_DOMAIN); } CookieSourceScheme source_scheme = CookieSourceScheme::kNonSecure; // This validation step must happen before SchemeIsCryptographic, so it // doesn't fail DCHECKs. if (!url.is_valid()) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_INVALID_DOMAIN); } else { source_scheme = url.SchemeIsCryptographic() ? CookieSourceScheme::kSecure : CookieSourceScheme::kNonSecure; } // Get the port, this will get a default value if a port isn't provided. int source_port = ValidateAndAdjustSourcePort(url.EffectiveIntPort()); std::string cookie_path = CanonicalCookie::CanonPathWithString(url, path); // Canonicalize path again to make sure it escapes characters as needed. url::Component path_component(0, cookie_path.length()); url::RawCanonOutputT canon_path; url::Component canon_path_component; url::CanonicalizePath(cookie_path.data(), path_component, &canon_path, &canon_path_component); std::string encoded_cookie_path = std::string( canon_path.data() + canon_path_component.begin, canon_path_component.len); if (!path.empty()) { if (cookie_path != path) { // The path attribute was specified and found to be invalid, so record an // error. status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_FAILURE_TO_STORE); } else if (!ParsedCookie::CookieAttributeValueHasValidSize( encoded_cookie_path)) { // The path attribute was specified and encodes into a value that's longer // than the length limit, so record an error. status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_ATTRIBUTE_VALUE_EXCEEDS_MAX_SIZE); } } CookiePrefix prefix = GetCookiePrefix(name); if (!IsCookiePrefixValid(prefix, url, secure, domain_attribute, cookie_path)) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_INVALID_PREFIX); } if (name == "" && HasHiddenPrefixName(value)) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_INVALID_PREFIX); } if (!IsCookieSamePartyValid(same_party, secure, same_site)) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_INVALID_SAMEPARTY); } if (!IsCookiePartitionedValid(url, secure, /*is_partitioned=*/partition_key.has_value(), /*partition_has_nonce=*/ CookiePartitionKey::HasNonce(partition_key))) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_INVALID_PARTITIONED); } if (!last_access_time.is_null() && creation_time.is_null()) { status->AddExclusionReason( net::CookieInclusionStatus::EXCLUDE_FAILURE_TO_STORE); } expiration_time = ValidateAndAdjustExpiryDate(expiration_time, creation_time); if (!status->IsInclude()) return nullptr; auto cc = std::make_unique( base::PassKey(), name, value, cookie_domain, encoded_cookie_path, creation_time, expiration_time, last_access_time, /*last_update=*/base::Time::Now(), secure, http_only, same_site, priority, same_party, partition_key, source_scheme, source_port); DCHECK(cc->IsCanonical()); return cc; } // static std::unique_ptr CanonicalCookie::FromStorage( std::string name, std::string value, std::string domain, std::string path, base::Time creation, base::Time expiration, base::Time last_access, base::Time last_update, bool secure, bool httponly, CookieSameSite same_site, CookiePriority priority, bool same_party, absl::optional partition_key, CookieSourceScheme source_scheme, int source_port) { // We check source_port here because it could have concievably been // corrupted and changed to out of range. Eventually this would be caught by // IsCanonical*() but since the source_port is only used by metrics so far // nothing else checks it. So let's normalize it here and then update this // method when origin-bound cookies is implemented. // TODO(crbug.com/1170548) int validated_port = ValidateAndAdjustSourcePort(source_port); auto cc = std::make_unique( base::PassKey(), std::move(name), std::move(value), std::move(domain), std::move(path), creation, expiration, last_access, last_update, secure, httponly, same_site, priority, same_party, partition_key, source_scheme, validated_port); if (cc->IsCanonicalForFromStorage()) { // This will help capture the number of times a cookie is canonical but does // not have a valid name+value size length bool valid_cookie_name_value_pair = ParsedCookie::IsValidCookieNameValuePair(cc->Name(), cc->Value()); UMA_HISTOGRAM_BOOLEAN("Cookie.FromStorageWithValidLength", valid_cookie_name_value_pair); } else { return nullptr; } return cc; } // 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, const base::Time& last_update, bool secure, bool httponly, CookieSameSite same_site, CookiePriority priority, bool same_party, absl::optional partition_key, CookieSourceScheme source_scheme, int source_port) { return std::make_unique( base::PassKey(), name, value, domain, path, creation, expiration, last_access, last_update, secure, httponly, same_site, priority, same_party, partition_key, source_scheme, source_port); } std::string CanonicalCookie::DomainWithoutDot() const { return cookie_util::CookieDomainAsHost(domain_); } void CanonicalCookie::SetSourcePort(int port) { source_port_ = ValidateAndAdjustSourcePort(port); } bool CanonicalCookie::IsEquivalentForSecureCookieMatching( const CanonicalCookie& secure_cookie) const { // Partition keys must both be equivalent. bool same_partition_key = PartitionKey() == secure_cookie.PartitionKey(); // Names must be the same bool same_name = name_ == secure_cookie.Name(); // They should domain-match in one direction or the other. (See RFC 6265bis // section 5.1.3.) // TODO(chlily): This does not check for the IP address case. This is bad due // to https://crbug.com/1069935. bool domain_match = IsSubdomainOf(DomainWithoutDot(), secure_cookie.DomainWithoutDot()) || IsSubdomainOf(secure_cookie.DomainWithoutDot(), DomainWithoutDot()); bool path_match = secure_cookie.IsOnPath(Path()); bool equivalent_for_secure_cookie_matching = same_partition_key && same_name && domain_match && path_match; // IsEquivalent() is a stricter check than this. DCHECK(!IsEquivalent(secure_cookie) || equivalent_for_secure_cookie_matching); return equivalent_for_secure_cookie_matching; } bool CanonicalCookie::IsOnPath(const std::string& url_path) const { return cookie_util::IsOnPath(path_, url_path); } bool CanonicalCookie::IsDomainMatch(const std::string& host) const { return cookie_util::IsDomainMatch(domain_, host); } CookieAccessResult CanonicalCookie::IncludeForRequestURL( const GURL& url, const CookieOptions& options, const CookieAccessParams& params) const { CookieInclusionStatus status; // Filter out HttpOnly cookies, per options. if (options.exclude_httponly() && IsHttpOnly()) status.AddExclusionReason(CookieInclusionStatus::EXCLUDE_HTTP_ONLY); // Secure cookies should not be included in requests for URLs with an // insecure scheme, unless it is a localhost url, or the CookieAccessDelegate // otherwise denotes them as trustworthy // (`delegate_treats_url_as_trustworthy`). bool is_allowed_to_access_secure_cookies = false; CookieAccessScheme cookie_access_scheme = cookie_util::ProvisionalAccessScheme(url); if (cookie_access_scheme == CookieAccessScheme::kNonCryptographic && params.delegate_treats_url_as_trustworthy) { cookie_access_scheme = CookieAccessScheme::kTrustworthy; } switch (cookie_access_scheme) { case CookieAccessScheme::kNonCryptographic: if (IsSecure()) status.AddExclusionReason(CookieInclusionStatus::EXCLUDE_SECURE_ONLY); break; case CookieAccessScheme::kTrustworthy: is_allowed_to_access_secure_cookies = true; if (IsSecure()) { status.AddWarningReason( CookieInclusionStatus:: WARN_SECURE_ACCESS_GRANTED_NON_CRYPTOGRAPHIC); } break; case CookieAccessScheme::kCryptographic: is_allowed_to_access_secure_cookies = true; break; } // Don't include cookies for requests that don't apply to the cookie domain. if (!IsDomainMatch(url.host())) status.AddExclusionReason(CookieInclusionStatus::EXCLUDE_DOMAIN_MISMATCH); // Don't include cookies for requests with a url path that does not path // match the cookie-path. if (!IsOnPath(url.path())) status.AddExclusionReason(CookieInclusionStatus::EXCLUDE_NOT_ON_PATH); // For LEGACY cookies we should always return the schemeless context, // otherwise let GetContextForCookieInclusion() decide. CookieOptions::SameSiteCookieContext::ContextType cookie_inclusion_context = params.access_semantics == CookieAccessSemantics::LEGACY ? options.same_site_cookie_context().context() : options.same_site_cookie_context().GetContextForCookieInclusion(); // Don't include same-site cookies for cross-site requests. CookieEffectiveSameSite effective_same_site = GetEffectiveSameSite(params.access_semantics); DCHECK(effective_same_site != CookieEffectiveSameSite::UNDEFINED); UMA_HISTOGRAM_ENUMERATION( "Cookie.RequestSameSiteContext", cookie_inclusion_context, CookieOptions::SameSiteCookieContext::ContextType::COUNT); switch (effective_same_site) { case CookieEffectiveSameSite::STRICT_MODE: if (cookie_inclusion_context < CookieOptions::SameSiteCookieContext::ContextType::SAME_SITE_STRICT) { status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_STRICT); } break; case CookieEffectiveSameSite::LAX_MODE: if (cookie_inclusion_context < CookieOptions::SameSiteCookieContext::ContextType::SAME_SITE_LAX) { status.AddExclusionReason( (SameSite() == CookieSameSite::UNSPECIFIED) ? CookieInclusionStatus:: EXCLUDE_SAMESITE_UNSPECIFIED_TREATED_AS_LAX : CookieInclusionStatus::EXCLUDE_SAMESITE_LAX); } break; // TODO(crbug.com/990439): Add a browsertest for this behavior. case CookieEffectiveSameSite::LAX_MODE_ALLOW_UNSAFE: DCHECK(SameSite() == CookieSameSite::UNSPECIFIED); if (cookie_inclusion_context < CookieOptions::SameSiteCookieContext::ContextType:: SAME_SITE_LAX_METHOD_UNSAFE) { // TODO(chlily): Do we need a separate CookieInclusionStatus for this? status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_UNSPECIFIED_TREATED_AS_LAX); } break; default: break; } // Unless legacy access semantics are in effect, SameSite=None cookies without // the Secure attribute should be ignored. This can apply to cookies which // were created before "SameSite=None requires Secure" was enabled (as // SameSite=None insecure cookies cannot be set while the options are on). if (params.access_semantics != CookieAccessSemantics::LEGACY && SameSite() == CookieSameSite::NO_RESTRICTION && !IsSecure()) { status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_NONE_INSECURE); } switch (params.same_party_status) { case CookieSamePartyStatus::kEnforceSamePartyExclude: DCHECK(IsSameParty()); status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_SAMEPARTY_CROSS_PARTY_CONTEXT); [[fallthrough]]; case CookieSamePartyStatus::kEnforceSamePartyInclude: { status.AddWarningReason(CookieInclusionStatus::WARN_TREATED_AS_SAMEPARTY); // Remove any SameSite exclusion reasons, since SameParty overrides // SameSite. DCHECK(!status.HasExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_STRICT)); DCHECK_NE(effective_same_site, CookieEffectiveSameSite::STRICT_MODE); bool included_by_samesite = !status.HasExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_LAX) && !status.HasExclusionReason( CookieInclusionStatus:: EXCLUDE_SAMESITE_UNSPECIFIED_TREATED_AS_LAX); if (!included_by_samesite) { status.RemoveExclusionReasons({ CookieInclusionStatus::EXCLUDE_SAMESITE_LAX, CookieInclusionStatus::EXCLUDE_SAMESITE_UNSPECIFIED_TREATED_AS_LAX, }); } // Update metrics. if (status.HasOnlyExclusionReason( CookieInclusionStatus::EXCLUDE_SAMEPARTY_CROSS_PARTY_CONTEXT) && included_by_samesite) { status.AddWarningReason( CookieInclusionStatus::WARN_SAMEPARTY_EXCLUSION_OVERRULED_SAMESITE); } if (status.IsInclude()) { if (!included_by_samesite) { status.AddWarningReason( CookieInclusionStatus:: WARN_SAMEPARTY_INCLUSION_OVERRULED_SAMESITE); } } break; } case CookieSamePartyStatus::kNoSamePartyEnforcement: // Only apply SameSite-related warnings if SameParty is not in effect. ApplySameSiteCookieWarningToStatus( SameSite(), effective_same_site, IsSecure(), options.same_site_cookie_context(), &status, false /* is_cookie_being_set */); break; } if (status.IsInclude()) { UMA_HISTOGRAM_ENUMERATION("Cookie.IncludedRequestEffectiveSameSite", effective_same_site, CookieEffectiveSameSite::COUNT); } using ContextRedirectTypeBug1221316 = CookieOptions::SameSiteCookieContext:: ContextMetadata::ContextRedirectTypeBug1221316; ContextRedirectTypeBug1221316 redirect_type_for_metrics = options.same_site_cookie_context() .GetMetadataForCurrentSchemefulMode() .redirect_type_bug_1221316; if (redirect_type_for_metrics != ContextRedirectTypeBug1221316::kUnset) { UMA_HISTOGRAM_ENUMERATION("Cookie.CrossSiteRedirectType.Read", redirect_type_for_metrics); } if (status.HasWarningReason( CookieInclusionStatus:: WARN_CROSS_SITE_REDIRECT_DOWNGRADE_CHANGES_INCLUSION)) { UMA_HISTOGRAM_ENUMERATION( "Cookie.CrossSiteRedirectDowngradeChangesInclusion2.Read", CookieSameSiteToCookieSameSiteForMetrics(SameSite())); using HttpMethod = CookieOptions::SameSiteCookieContext::ContextMetadata::HttpMethod; HttpMethod http_method_enum = options.same_site_cookie_context() .GetMetadataForCurrentSchemefulMode() .http_method_bug_1221316; DCHECK(http_method_enum != HttpMethod::kUnset); UMA_HISTOGRAM_ENUMERATION( "Cookie.CrossSiteRedirectDowngradeChangesInclusionHttpMethod", http_method_enum); base::TimeDelta cookie_age = base::Time::Now() - creation_date_; UMA_HISTOGRAM_EXACT_LINEAR( "Cookie.CrossSiteRedirectDowngradeChangesInclusionAge", cookie_age.InMinutes(), 30); } return CookieAccessResult(effective_same_site, status, params.access_semantics, is_allowed_to_access_secure_cookies); } CookieAccessResult CanonicalCookie::IsSetPermittedInContext( const GURL& source_url, const CookieOptions& options, const CookieAccessParams& params, const std::vector& cookieable_schemes, const absl::optional& cookie_access_result) const { CookieAccessResult access_result; if (cookie_access_result) { access_result = *cookie_access_result; } if (!base::Contains(cookieable_schemes, source_url.scheme())) { access_result.status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_NONCOOKIEABLE_SCHEME); } CookieAccessScheme access_scheme = cookie_util::ProvisionalAccessScheme(source_url); if (access_scheme == CookieAccessScheme::kNonCryptographic && params.delegate_treats_url_as_trustworthy) { access_scheme = CookieAccessScheme::kTrustworthy; } switch (access_scheme) { case CookieAccessScheme::kNonCryptographic: access_result.is_allowed_to_access_secure_cookies = false; if (IsSecure()) { access_result.status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_SECURE_ONLY); } break; case CookieAccessScheme::kCryptographic: // All cool! access_result.is_allowed_to_access_secure_cookies = true; break; case CookieAccessScheme::kTrustworthy: access_result.is_allowed_to_access_secure_cookies = true; if (IsSecure()) { // OK, but want people aware of this. access_result.status.AddWarningReason( CookieInclusionStatus:: WARN_SECURE_ACCESS_GRANTED_NON_CRYPTOGRAPHIC); } break; } access_result.access_semantics = params.access_semantics; if (options.exclude_httponly() && IsHttpOnly()) { DVLOG(net::cookie_util::kVlogSetCookies) << "HttpOnly cookie not permitted in script context."; access_result.status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_HTTP_ONLY); } // Unless legacy access semantics are in effect, SameSite=None cookies without // the Secure attribute will be rejected. if (params.access_semantics != CookieAccessSemantics::LEGACY && SameSite() == CookieSameSite::NO_RESTRICTION && !IsSecure()) { DVLOG(net::cookie_util::kVlogSetCookies) << "SetCookie() rejecting insecure cookie with SameSite=None."; access_result.status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_NONE_INSECURE); } // For LEGACY cookies we should always return the schemeless context, // otherwise let GetContextForCookieInclusion() decide. CookieOptions::SameSiteCookieContext::ContextType cookie_inclusion_context = params.access_semantics == CookieAccessSemantics::LEGACY ? options.same_site_cookie_context().context() : options.same_site_cookie_context().GetContextForCookieInclusion(); access_result.effective_same_site = GetEffectiveSameSite(params.access_semantics); DCHECK(access_result.effective_same_site != CookieEffectiveSameSite::UNDEFINED); switch (access_result.effective_same_site) { case CookieEffectiveSameSite::STRICT_MODE: // This intentionally checks for `< SAME_SITE_LAX`, as we allow // `SameSite=Strict` cookies to be set for top-level navigations that // qualify for receipt of `SameSite=Lax` cookies. if (cookie_inclusion_context < CookieOptions::SameSiteCookieContext::ContextType::SAME_SITE_LAX) { DVLOG(net::cookie_util::kVlogSetCookies) << "Trying to set a `SameSite=Strict` cookie from a " "cross-site URL."; access_result.status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_STRICT); } break; case CookieEffectiveSameSite::LAX_MODE: case CookieEffectiveSameSite::LAX_MODE_ALLOW_UNSAFE: if (cookie_inclusion_context < CookieOptions::SameSiteCookieContext::ContextType::SAME_SITE_LAX) { if (SameSite() == CookieSameSite::UNSPECIFIED) { DVLOG(net::cookie_util::kVlogSetCookies) << "Cookies with no known SameSite attribute being treated as " "lax; attempt to set from a cross-site URL denied."; access_result.status.AddExclusionReason( CookieInclusionStatus:: EXCLUDE_SAMESITE_UNSPECIFIED_TREATED_AS_LAX); } else { DVLOG(net::cookie_util::kVlogSetCookies) << "Trying to set a `SameSite=Lax` cookie from a cross-site URL."; access_result.status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_LAX); } } break; default: break; } switch (params.same_party_status) { case CookieSamePartyStatus::kEnforceSamePartyExclude: DCHECK(IsSameParty()); access_result.status.AddExclusionReason( CookieInclusionStatus::EXCLUDE_SAMEPARTY_CROSS_PARTY_CONTEXT); [[fallthrough]]; case CookieSamePartyStatus::kEnforceSamePartyInclude: { DCHECK(IsSameParty()); access_result.status.AddWarningReason( CookieInclusionStatus::WARN_TREATED_AS_SAMEPARTY); // Remove any SameSite exclusion reasons, since SameParty overrides // SameSite. DCHECK(!access_result.status.HasExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_STRICT)); DCHECK_NE(access_result.effective_same_site, CookieEffectiveSameSite::STRICT_MODE); bool included_by_samesite = !access_result.status.HasExclusionReason( CookieInclusionStatus::EXCLUDE_SAMESITE_LAX) && !access_result.status.HasExclusionReason( CookieInclusionStatus:: EXCLUDE_SAMESITE_UNSPECIFIED_TREATED_AS_LAX); if (!included_by_samesite) { access_result.status.RemoveExclusionReasons({ CookieInclusionStatus::EXCLUDE_SAMESITE_LAX, CookieInclusionStatus::EXCLUDE_SAMESITE_UNSPECIFIED_TREATED_AS_LAX, }); } // Update metrics. if (access_result.status.HasOnlyExclusionReason( CookieInclusionStatus::EXCLUDE_SAMEPARTY_CROSS_PARTY_CONTEXT) && included_by_samesite) { access_result.status.AddWarningReason( CookieInclusionStatus::WARN_SAMEPARTY_EXCLUSION_OVERRULED_SAMESITE); } if (access_result.status.IsInclude()) { if (!included_by_samesite) { access_result.status.AddWarningReason( CookieInclusionStatus:: WARN_SAMEPARTY_INCLUSION_OVERRULED_SAMESITE); } } break; } case CookieSamePartyStatus::kNoSamePartyEnforcement: // Only apply SameSite-related warnings if SameParty is not in effect. ApplySameSiteCookieWarningToStatus( SameSite(), access_result.effective_same_site, IsSecure(), options.same_site_cookie_context(), &access_result.status, true /* is_cookie_being_set */); break; } if (access_result.status.IsInclude()) { UMA_HISTOGRAM_ENUMERATION("Cookie.IncludedResponseEffectiveSameSite", access_result.effective_same_site, CookieEffectiveSameSite::COUNT); } using ContextRedirectTypeBug1221316 = CookieOptions::SameSiteCookieContext:: ContextMetadata::ContextRedirectTypeBug1221316; ContextRedirectTypeBug1221316 redirect_type_for_metrics = options.same_site_cookie_context() .GetMetadataForCurrentSchemefulMode() .redirect_type_bug_1221316; if (redirect_type_for_metrics != ContextRedirectTypeBug1221316::kUnset) { UMA_HISTOGRAM_ENUMERATION("Cookie.CrossSiteRedirectType.Write", redirect_type_for_metrics); } if (access_result.status.HasWarningReason( CookieInclusionStatus:: WARN_CROSS_SITE_REDIRECT_DOWNGRADE_CHANGES_INCLUSION)) { UMA_HISTOGRAM_ENUMERATION( "Cookie.CrossSiteRedirectDowngradeChangesInclusion2.Write", CookieSameSiteToCookieSameSiteForMetrics(SameSite())); } return access_result; } std::string CanonicalCookie::DebugString() const { return base::StringPrintf( "name: %s value: %s domain: %s path: %s creation: %" PRId64, name_.c_str(), value_.c_str(), domain_.c_str(), path_.c_str(), static_cast(creation_date_.ToTimeT())); } bool CanonicalCookie::PartialCompare(const CanonicalCookie& other) const { return PartialCookieOrdering(*this, other) < 0; } bool CanonicalCookie::IsCanonical() const { // TODO(crbug.com/1244172) Eventually we should check the size of name+value, // assuming we collect metrics and determine that a low percentage of cookies // would fail this check. Note that we still don't want to enforce length // checks on domain or path for the reason stated above. // TODO(crbug.com/1264458): Eventually we should push this logic into // IsCanonicalForFromStorage, but for now we allow cookies already stored with // high expiration dates to be retrieved. if (ValidateAndAdjustExpiryDate(expiry_date_, creation_date_) != expiry_date_) return false; return IsCanonicalForFromStorage(); } bool CanonicalCookie::IsCanonicalForFromStorage() const { // Not checking domain or path against ParsedCookie as it may have // come purely from the URL. Also, don't call IsValidCookieNameValuePair() // here because we don't want to enforce the size checks on names or values // that may have been reconstituted from the cookie store. if (ParsedCookie::ParseTokenString(name_) != name_ || !ParsedCookie::ValueMatchesParsedValue(value_)) { return false; } if (!ParsedCookie::IsValidCookieName(name_) || !ParsedCookie::IsValidCookieValue(value_)) { return false; } if (!last_access_date_.is_null() && creation_date_.is_null()) return false; url::CanonHostInfo canon_host_info; std::string canonical_domain(CanonicalizeHost(domain_, &canon_host_info)); // TODO(rdsmith): This specifically allows for empty domains. The spec // suggests this is invalid (if a domain attribute is empty, the cookie's // domain is set to the canonicalized request host; see // https://tools.ietf.org/html/rfc6265#section-5.3). However, it is // needed for Chrome extension cookies. // See http://crbug.com/730633 for more information. if (canonical_domain != domain_) return false; if (path_.empty() || path_[0] != '/') return false; CookiePrefix prefix = GetCookiePrefix(name_); switch (prefix) { case COOKIE_PREFIX_HOST: if (!secure_ || path_ != "/" || domain_.empty() || domain_[0] == '.') return false; break; case COOKIE_PREFIX_SECURE: if (!secure_) return false; break; default: break; } if (name_ == "" && HasHiddenPrefixName(value_)) return false; if (!IsCookieSamePartyValid(same_party_, secure_, same_site_)) return false; if (IsPartitioned()) { if (CookiePartitionKey::HasNonce(partition_key_)) return true; if (!secure_) return false; } return true; } bool CanonicalCookie::IsEffectivelySameSiteNone( CookieAccessSemantics access_semantics) const { return GetEffectiveSameSite(access_semantics) == CookieEffectiveSameSite::NO_RESTRICTION; } CookieEffectiveSameSite CanonicalCookie::GetEffectiveSameSiteForTesting( CookieAccessSemantics access_semantics) const { return GetEffectiveSameSite(access_semantics); } // static std::string CanonicalCookie::BuildCookieLine(const CookieList& cookies) { std::string cookie_line; for (const auto& cookie : cookies) { AppendCookieLineEntry(cookie, &cookie_line); } return cookie_line; } // static std::string CanonicalCookie::BuildCookieLine( const CookieAccessResultList& cookie_access_result_list) { std::string cookie_line; for (const auto& cookie_with_access_result : cookie_access_result_list) { const CanonicalCookie& cookie = cookie_with_access_result.cookie; AppendCookieLineEntry(cookie, &cookie_line); } return cookie_line; } // static std::string CanonicalCookie::BuildCookieAttributesLine( const CanonicalCookie& cookie) { std::string cookie_line; // In Mozilla, if you set a cookie like "AAA", it will have an empty token // and a value of "AAA". When it sends the cookie back, it will send "AAA", // so we need to avoid sending "=AAA" for a blank token value. if (!cookie.Name().empty()) cookie_line += cookie.Name() + "="; cookie_line += cookie.Value(); if (!cookie.Domain().empty()) cookie_line += "; domain=" + cookie.Domain(); if (!cookie.Path().empty()) cookie_line += "; path=" + cookie.Path(); if (cookie.ExpiryDate() != base::Time()) cookie_line += "; expires=" + TimeFormatHTTP(cookie.ExpiryDate()); if (cookie.IsSecure()) cookie_line += "; secure"; if (cookie.IsHttpOnly()) cookie_line += "; httponly"; switch (cookie.SameSite()) { case CookieSameSite::NO_RESTRICTION: cookie_line += "; samesite=none"; break; case CookieSameSite::LAX_MODE: cookie_line += "; samesite=lax"; break; case CookieSameSite::STRICT_MODE: cookie_line += "; samesite=strict"; break; case CookieSameSite::UNSPECIFIED: // Don't append any text if the samesite attribute wasn't explicitly set. break; } return cookie_line; } // static CanonicalCookie::CookiePrefix CanonicalCookie::GetCookiePrefix( const std::string& name, bool check_insensitively) { const char kSecurePrefix[] = "__Secure-"; const char kHostPrefix[] = "__Host-"; base::CompareCase case_sensitivity = check_insensitively ? base::CompareCase::INSENSITIVE_ASCII : base::CompareCase::SENSITIVE; if (base::StartsWith(name, kSecurePrefix, case_sensitivity)) return CanonicalCookie::COOKIE_PREFIX_SECURE; if (base::StartsWith(name, kHostPrefix, case_sensitivity)) return CanonicalCookie::COOKIE_PREFIX_HOST; return CanonicalCookie::COOKIE_PREFIX_NONE; } // static void CanonicalCookie::RecordCookiePrefixMetrics( CookiePrefix prefix_case_sensitive, CookiePrefix prefix_case_insensitive, bool is_insensitive_prefix_valid) { const char kCookiePrefixHistogram[] = "Cookie.CookiePrefix"; UMA_HISTOGRAM_ENUMERATION(kCookiePrefixHistogram, prefix_case_sensitive, CanonicalCookie::COOKIE_PREFIX_LAST); // For this to be true there must a prefix, so we know it's not // COOKIE_PREFIX_NONE. bool is_case_variant = prefix_case_insensitive != prefix_case_sensitive; if (is_case_variant) { const char kCookiePrefixVariantHistogram[] = "Cookie.CookiePrefix.CaseVariant"; UMA_HISTOGRAM_ENUMERATION(kCookiePrefixVariantHistogram, prefix_case_insensitive, CanonicalCookie::COOKIE_PREFIX_LAST); const char kVariantValidHistogram[] = "Cookie.CookiePrefix.CaseVariantValid"; UMA_HISTOGRAM_BOOLEAN(kVariantValidHistogram, is_insensitive_prefix_valid); } const char kVariantCountHistogram[] = "Cookie.CookiePrefix.CaseVariantCount"; if (prefix_case_insensitive > CookiePrefix::COOKIE_PREFIX_NONE) { UMA_HISTOGRAM_BOOLEAN(kVariantCountHistogram, is_case_variant); } } // Returns true if the cookie does not violate any constraints imposed // by the cookie name's prefix, as described in // https://tools.ietf.org/html/draft-west-cookie-prefixes // // static bool CanonicalCookie::IsCookiePrefixValid(CanonicalCookie::CookiePrefix prefix, const GURL& url, const ParsedCookie& parsed_cookie) { return CanonicalCookie::IsCookiePrefixValid( prefix, url, parsed_cookie.IsSecure(), parsed_cookie.HasDomain() ? parsed_cookie.Domain() : "", parsed_cookie.HasPath() ? parsed_cookie.Path() : ""); } bool CanonicalCookie::IsCookiePrefixValid(CanonicalCookie::CookiePrefix prefix, const GURL& url, bool secure, const std::string& domain, const std::string& path) { if (prefix == CanonicalCookie::COOKIE_PREFIX_SECURE) return secure && url.SchemeIsCryptographic(); if (prefix == CanonicalCookie::COOKIE_PREFIX_HOST) { return HasValidHostPrefixAttributes(url, secure, domain, path); } return true; } CookieEffectiveSameSite CanonicalCookie::GetEffectiveSameSite( CookieAccessSemantics access_semantics) const { base::TimeDelta lax_allow_unsafe_threshold_age = base::FeatureList::IsEnabled( features::kSameSiteDefaultChecksMethodRigorously) ? base::TimeDelta::Min() : (base::FeatureList::IsEnabled( features::kShortLaxAllowUnsafeThreshold) ? kShortLaxAllowUnsafeMaxAge : kLaxAllowUnsafeMaxAge); switch (SameSite()) { // If a cookie does not have a SameSite attribute, the effective SameSite // mode depends on the access semantics and whether the cookie is // recently-created. case CookieSameSite::UNSPECIFIED: return (access_semantics == CookieAccessSemantics::LEGACY) ? CookieEffectiveSameSite::NO_RESTRICTION : (IsRecentlyCreated(lax_allow_unsafe_threshold_age) ? CookieEffectiveSameSite::LAX_MODE_ALLOW_UNSAFE : CookieEffectiveSameSite::LAX_MODE); case CookieSameSite::NO_RESTRICTION: return CookieEffectiveSameSite::NO_RESTRICTION; case CookieSameSite::LAX_MODE: return CookieEffectiveSameSite::LAX_MODE; case CookieSameSite::STRICT_MODE: return CookieEffectiveSameSite::STRICT_MODE; } } // static bool CanonicalCookie::HasHiddenPrefixName( const base::StringPiece cookie_value) { // Skip BWS as defined by HTTPSEM as SP or HTAB (0x20 or 0x9). base::StringPiece value_without_BWS = base::TrimString(cookie_value, " \t", base::TRIM_LEADING); const base::StringPiece host_prefix = "__Host-"; // Compare the value to the host_prefix. if (base::StartsWith(value_without_BWS, host_prefix, base::CompareCase::INSENSITIVE_ASCII)) { // This value contains a hidden prefix name. return true; } // Do a similar check for the secure prefix const base::StringPiece secure_prefix = "__Secure-"; if (base::StartsWith(value_without_BWS, secure_prefix, base::CompareCase::INSENSITIVE_ASCII)) { return true; } return false; } bool CanonicalCookie::IsRecentlyCreated(base::TimeDelta age_threshold) const { return (base::Time::Now() - creation_date_) <= age_threshold; } // static bool CanonicalCookie::IsCookieSamePartyValid( const ParsedCookie& parsed_cookie) { return IsCookieSamePartyValid(parsed_cookie.IsSameParty(), parsed_cookie.IsSecure(), parsed_cookie.SameSite()); } // static bool CanonicalCookie::IsCookieSamePartyValid(bool is_same_party, bool is_secure, CookieSameSite same_site) { if (!is_same_party) return true; return is_secure && (same_site != CookieSameSite::STRICT_MODE); } // static bool CanonicalCookie::IsCookiePartitionedValid( const GURL& url, const ParsedCookie& parsed_cookie, bool partition_has_nonce) { return IsCookiePartitionedValid( url, /*secure=*/parsed_cookie.IsSecure(), /*is_partitioned=*/parsed_cookie.IsPartitioned(), partition_has_nonce); } // static bool CanonicalCookie::IsCookiePartitionedValid(const GURL& url, bool secure, bool is_partitioned, bool partition_has_nonce) { if (!is_partitioned) return true; if (partition_has_nonce) return true; CookieAccessScheme scheme = cookie_util::ProvisionalAccessScheme(url); bool result = (scheme != CookieAccessScheme::kNonCryptographic) && secure; DLOG_IF(WARNING, !result) << "CanonicalCookie has invalid Partitioned attribute"; return result; } CookieAndLineWithAccessResult::CookieAndLineWithAccessResult() = default; CookieAndLineWithAccessResult::CookieAndLineWithAccessResult( absl::optional cookie, std::string cookie_string, CookieAccessResult access_result) : cookie(std::move(cookie)), cookie_string(std::move(cookie_string)), access_result(access_result) {} CookieAndLineWithAccessResult::CookieAndLineWithAccessResult( const CookieAndLineWithAccessResult&) = default; CookieAndLineWithAccessResult& CookieAndLineWithAccessResult::operator=( const CookieAndLineWithAccessResult& cookie_and_line_with_access_result) = default; CookieAndLineWithAccessResult::CookieAndLineWithAccessResult( CookieAndLineWithAccessResult&&) = default; CookieAndLineWithAccessResult::~CookieAndLineWithAccessResult() = default; } // namespace net