gecko-dev/netwerk/cookie/CookieJarSettings.h

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef mozilla_net_CookieJarSettings_h
#define mozilla_net_CookieJarSettings_h
#include "mozilla/Maybe.h"
#include "nsICookieJarSettings.h"
#include "nsTArray.h"
#define COOKIEJARSETTINGS_CONTRACTID "@mozilla.org/cookieJarSettings;1"
// 4ce234f1-52e8-47a9-8c8d-b02f815733c7
#define COOKIEJARSETTINGS_CID \
{ \
0x4ce234f1, 0x52e8, 0x47a9, { \
0x8c, 0x8d, 0xb0, 0x2f, 0x81, 0x57, 0x33, 0xc7 \
} \
}
class nsIPermission;
namespace mozilla {
namespace net {
class CookieJarSettingsArgs;
/**
* CookieJarSettings
* ~~~~~~~~~~~~~~
*
* CookieJarSettings is a snapshot of the cookie jar's configurations in a
* precise moment of time, such as the cookie policy and cookie permissions.
* This object is used by top-level documents to have a consistent cookie jar
* configuration also in case the user changes it. New configurations will apply
* only to new top-level documents.
*
* CookieJarSettings creation
* ~~~~~~~~~~~~~~~~~~~~~~~
*
* CookieJarSettings is created when the top-level document's nsIChannel's
* nsILoadInfo is constructed. Any sub-resource and any sub-document inherits it
* from that nsILoadInfo. Also dedicated workers and their resources inherit it
* from the parent document.
*
* SharedWorkers and ServiceWorkers have their own CookieJarSettings because
* they don't have a single parent document (SharedWorkers could have more than
* one, ServiceWorkers have none).
*
* In Chrome code, we have a new CookieJarSettings when we download resources
* via 'Save-as...' and we also have a new CookieJarSettings for favicon
* downloading.
*
* Content-scripts WebExtensions also have their own CookieJarSettings because
* they don't have a direct access to the document they are running into.
*
* Anything else will have a special CookieJarSettings which blocks everything
* (CookieJarSettings::GetBlockingAll()) by forcing BEHAVIOR_REJECT as policy.
* When this happens, that context will not have access to the cookie jar and no
* cookies are sent or received.
*
* Propagation of CookieJarSettings
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*
* CookieJarSettings are shared inside the same top-level document via its
* nsIChannel's nsILoadInfo. This is done automatically if you pass a nsINode
* to NS_NewChannel(), and it must be done manually if you use a different
* channel constructor. For instance, this happens for any worker networking
* operation.
*
* We use the same CookieJarSettings for any resource belonging to the top-level
* document even if cross-origin. This makes the browser behave consistently a
* scenario where A loads B which loads A again, and cookie policy/permission
* changes in the meantime.
*
* Cookie Permissions propagation
* ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
*
* CookieJarSettings populates the known cookie permissions only when required.
* Initially the list is empty, but when CookieJarSettings::CookiePermission()
* is called, the requested permission is stored in the internal list if it
* doesn't exist yet.
*
* This is actually nice because it relies on the permission propagation from
* parent to content process. No extra IPC is required.
*
* Note that we store permissions with UNKNOWN_ACTION values too because they
* can be set after the loading of the top-level document and we don't want to
* return a different value when this happens.
*
* Use of CookieJarSettings
* ~~~~~~~~~~~~~~~~~~~~~
*
* In theory, there should not be direct access to cookie permissions or
* cookieBehavior pref. Everything should pass through CookieJarSettings.
*
* A reference to CookieJarSettings can be obtained from
* nsILoadInfo::GetCookieJarSettings(), from Document::CookieJarSettings() and
* from the WorkerPrivate::CookieJarSettings().
*
* CookieJarSettings is thread-safe, but the permission list must be touched
* only on the main-thread.
*
* Testing
* ~~~~~~~
*
* If you need to test the changing of cookie policy or a cookie permission, you
* need to workaround CookieJarSettings. This can be done opening a new window
* and running the test into that new global.
*/
/**
* Class that provides an nsICookieJarSettings implementation.
*/
class CookieJarSettings final : public nsICookieJarSettings {
public:
typedef nsTArray<RefPtr<nsIPermission>> CookiePermissionList;
NS_DECL_THREADSAFE_ISUPPORTS
NS_DECL_NSICOOKIEJARSETTINGS
NS_DECL_NSISERIALIZABLE
static already_AddRefed<nsICookieJarSettings> GetBlockingAll(
bool aShouldResistFingerprinting);
enum CreateMode { eRegular, ePrivate };
static already_AddRefed<nsICookieJarSettings> Create(
CreateMode aMode, bool aShouldResistFingerprinting);
static already_AddRefed<nsICookieJarSettings> Create(
nsIPrincipal* aPrincipal);
// This function should be only called for XPCOM. You should never use this
// for other purposes.
static already_AddRefed<nsICookieJarSettings> CreateForXPCOM();
static already_AddRefed<nsICookieJarSettings> Create(
uint32_t aCookieBehavior, const nsAString& aPartitionKey,
bool aIsFirstPartyIsolated, bool aIsOnContentBlockingAllowList,
bool aShouldResistFingerprinting);
static CookieJarSettings* Cast(nsICookieJarSettings* aCS) {
return static_cast<CookieJarSettings*>(aCS);
}
void Serialize(CookieJarSettingsArgs& aData);
static void Deserialize(const CookieJarSettingsArgs& aData,
nsICookieJarSettings** aCookieJarSettings);
void Merge(const CookieJarSettingsArgs& aData);
// We don't want to send this object from parent to child process if there are
// no reasons. HasBeenChanged() returns true if the object has changed its
// internal state and it must be sent beck to the content process.
bool HasBeenChanged() const { return mToBeMerged; }
void UpdateIsOnContentBlockingAllowList(nsIChannel* aChannel);
void SetPartitionKey(nsIURI* aURI);
void SetPartitionKey(const nsAString& aPartitionKey) {
mPartitionKey = aPartitionKey;
}
const nsAString& GetPartitionKey() { return mPartitionKey; };
void SetFingerprintingRandomizationKey(const nsTArray<uint8_t>& aKey) {
mFingerprintingRandomKey.reset();
mFingerprintingRandomKey.emplace(aKey.Clone());
}
// Utility function to test if the passed cookiebahvior is
// BEHAVIOR_REJECT_TRACKER, BEHAVIOR_REJECT_TRACKER_AND_PARTITION_FOREIGN or
// BEHAVIOR_REJECT_FOREIGN when
// network.cookie.rejectForeignWithExceptions.enabled pref is set to true.
static bool IsRejectThirdPartyContexts(uint32_t aCookieBehavior);
// This static method returns true if aCookieBehavior is
// BEHAVIOR_REJECT_FOREIGN and
// network.cookie.rejectForeignWithExceptions.enabled pref is set to true.
static bool IsRejectThirdPartyWithExceptions(uint32_t aCookieBehavior);
private:
enum State {
// No cookie permissions are allowed to be stored in this object.
eFixed,
// Cookie permissions can be stored in case they are unknown when they are
// asked or when they are sent from the parent process.
eProgressive,
};
CookieJarSettings(uint32_t aCookieBehavior, bool aIsFirstPartyIsolated,
bool aShouldResistFingerprinting, State aState);
~CookieJarSettings();
uint32_t mCookieBehavior;
bool mIsFirstPartyIsolated;
CookiePermissionList mCookiePermissions;
bool mIsOnContentBlockingAllowList;
bool mIsOnContentBlockingAllowListUpdated;
nsString mPartitionKey;
State mState;
bool mToBeMerged;
// DO NOT USE THIS MEMBER TO CHECK IF YOU SHOULD RESIST FINGERPRINTING.
// USE THE nsContentUtils::ShouldResistFingerprinting() METHODS ONLY.
//
// As we move to fine-grained RFP control, we want to support per-domain
// exemptions from ResistFingerprinting. Specifically the behavior should be
// as such:
//
// Top-Level Document is on an Exempted Domain
// - RFP is disabled.
//
// Top-Level Document on an Exempted Domain embedding a non-exempted
// cross-origin iframe
// - RFP in the iframe is enabled (NOT exempted). (**)
//
// Top-Level Document on an Exempted Domain embedding an exempted cross-origin
// iframe
// - RFP in the iframe is disabled (exempted).
//
// Top-Level Document on a Non-Exempted Domain
// - RFP is enabled (NOT exempted).
//
// Top-Level Document on a Non-Exempted Domain embeds an exempted cross-origin
// iframe
// - RFP in the iframe is enabled (NOT exempted). (*)
//
// Exempted Document (top-level or iframe) contacts any cross-origin domain
// (exempted or non-exempted)
// - RFP is disabled (exempted) for the request
//
// Non-Exempted Document (top-level or iframe) contacts any cross-origin
// domain
// (exempted or non-exempted)
// - RFP is enabled (NOT exempted) for the request
//
// This boolean on CookieJarSettings will enable us to apply the most
// difficult rule, marked in (*). (It is difficult because the
// subdocument's loadinfo will look like it should be exempted.)
// However if we trusted this member blindly, it would not correctly apply
// the one marked with (**). (Because it would inherit an exemption into
// a subdocument that should not be exempted.)
// To handle this case, we only trust a CookieJar's ShouldRFP value if it
// says we should resist fingerprinting. If it says that we _should not_,
// we continue and check the channel's URI or LoadInfo and if
// the domain specified there is not an exempted domain, enforce RFP anyway.
// This all occurrs in the nscontentUtils::ShouldResistFingerprinting
// functions which you should be using.
bool mShouldResistFingerprinting;
// The key used to generate the random noise for randomizing the browser
// fingerprint. The key is decided by the session key and the top-level site.
// So, the browse fingerprint will look different to the same tracker
// under different top-level sites. Also, the fingerprint will change as
// browsing session changes. This can prevent trackers to identify individuals
// by using browser fingerprints.
Maybe<nsTArray<uint8_t>> mFingerprintingRandomKey;
};
} // namespace net
} // namespace mozilla
#endif // mozilla_net_CookieJarSettings_h