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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/. */

/* Utilities for managing the script settings object stack defined in webapps */

#ifndef mozilla_dom_ScriptSettings_h

#define mozilla_dom_ScriptSettings_h

#include "xpcpublic.h"

#include "mozilla/dom/JSExecutionManager.h"

#include "mozilla/Maybe.h"

#include "jsapi.h"

#include "js/Exception.h"

#include "js/Warnings.h"  // JS::WarningReporter

class JSObject;

class nsIGlobalObject;

class nsIPrincipal;

class nsPIDOMWindowInner;

class nsGlobalWindowInner;

class nsIScriptContext;

struct JSContext;

namespace JS {

class ExceptionStack;

class Value;

}  // namespace JS

namespace mozilla {

namespace dom {

class Document;

/*

 * Per thread setup/teardown routines. Init and Destroy should be invoked

 * once each, at startup and shutdown of the script runtime (respectively).

*/

void InitScriptSettings();

void DestroyScriptSettings();

// To implement a web-compatible browser, it is often necessary to obtain the

// global object that is "associated" with the currently-running code. This

// process is made more complicated by the fact that, historically, different

// algorithms have operated with different definitions of the "associated"

// global.

//

// HTML5 formalizes this into two concepts: the "incumbent global" and the

// "entry global". The incumbent global corresponds to the global of the

// current script being executed, whereas the entry global corresponds to the

// global of the script where the current JS execution began.

//

// There is also a potentially-distinct third global that is determined by the

// current compartment. This roughly corresponds with the notion of Realms in

// ECMAScript.

//

// Suppose some event triggers an event listener in window |A|, which invokes a

// scripted function in window |B|, which invokes the |window.location.href|

// setter in window |C|. The entry global would be |A|, the incumbent global

// would be |B|, and the current compartment would be that of |C|.

//

// In general, it's best to use to use the most-closely-associated global

// unless the spec says to do otherwise. In 95% of the cases, the global of

// the current compartment (GetCurrentGlobal()) is the right thing. For

// example, WebIDL constructors (new C.XMLHttpRequest()) are initialized with

// the global of the current compartment (i.e. |C|).

//

// The incumbent global is very similar, but differs in a few edge cases. For

// example, if window |B| does |C.location.href = "..."|, the incumbent global

// used for the navigation algorithm is B, because no script from |C| was ever

// run.

//

// The entry global is used for various things like computing base URIs, mostly

// for historical reasons.

//

// Note that all of these functions return bonafide global objects. This means

// that, for Windows, they always return the inner.

// Returns the global associated with the top-most Candidate Entry Point on

// the Script Settings Stack. See the HTML spec. This may be null.

nsIGlobalObject* GetEntryGlobal();

// If the entry global is a window, returns its extant document. Otherwise,

// returns null.

Document* GetEntryDocument();

// Returns the global associated with the top-most entry of the the Script

// Settings Stack. See the HTML spec. This may be null.

nsIGlobalObject* GetIncumbentGlobal();

// Returns the global associated with the current compartment. This may be null.

nsIGlobalObject* GetCurrentGlobal();

// JS-implemented WebIDL presents an interesting situation with respect to the

// subject principal. A regular C++-implemented API can simply examine the

// compartment of the most-recently-executed script, and use that to infer the

// responsible party. However, JS-implemented APIs are run with system

// principal, and thus clobber the subject principal of the script that

// invoked the API. So we have to do some extra work to keep track of this

// information.

//

// We therefore implement the following behavior:

// * Each Script Settings Object has an optional WebIDL Caller Principal field.

//   This defaults to null.

// * When we push an Entry Point in preparation to run a JS-implemented WebIDL

//   callback, we grab the subject principal at the time of invocation, and

//   store that as the WebIDL Caller Principal.

// * When non-null, callers can query this principal from script via an API on

//   Components.utils.

nsIPrincipal* GetWebIDLCallerPrincipal();

// Returns whether JSAPI is active right now.  If it is not, working with a

// JSContext you grab from somewhere random is not OK and you should be doing

// AutoJSAPI or AutoEntryScript to get yourself a properly set up JSContext.

bool IsJSAPIActive();

namespace danger {

// Get the JSContext for this thread.  This is in the "danger" namespace because

// we generally want people using AutoJSAPI instead, unless they really know

// what they're doing.

JSContext* GetJSContext();

}  // namespace danger

JS::RootingContext* RootingCx();

class ScriptSettingsStack;

class ScriptSettingsStackEntry {

  friend class ScriptSettingsStack;

 public:

  ~ScriptSettingsStackEntry();

  bool NoJSAPI() const { return mType == eNoJSAPI; }

  bool IsEntryCandidate() const {

    return mType == eEntryScript || mType == eNoJSAPI;

  bool IsIncumbentCandidate() { return mType != eJSAPI; }

  bool IsIncumbentScript() { return mType == eIncumbentScript; }

 protected:

  enum Type { eEntryScript, eIncumbentScript, eJSAPI, eNoJSAPI };

  ScriptSettingsStackEntry(nsIGlobalObject* aGlobal, Type aEntryType);

  nsCOMPtr<nsIGlobalObject> mGlobalObject;

  Type mType;

 private:

  ScriptSettingsStackEntry* mOlder;

};

/*

 * For any interaction with JSAPI, an AutoJSAPI (or one of its subclasses)

 * must be on the stack.

 * This base class should be instantiated as-is when the caller wants to use

 * JSAPI but doesn't expect to run script. The caller must then call one of its

 * Init functions before being able to access the JSContext through cx().

 * Its current duties are as-follows (see individual Init comments for details):

 * * Grabbing an appropriate JSContext, and, on the main thread, pushing it onto

 *   the JSContext stack.

 * * Entering an initial (possibly null) compartment, to ensure that the

 *   previously entered compartment for that JSContext is not used by mistake.

 * * Reporting any exceptions left on the JSRuntime, unless the caller steals

 *   or silences them.

 * Additionally, the following duties are planned, but not yet implemented:

 * * De-poisoning the JSRuntime to allow manipulation of JSAPI. This requires

 *   implementing the poisoning first.  For now, this de-poisoning

 *   effectively corresponds to having a non-null cx on the stack.

 * In situations where the consumer expects to run script, AutoEntryScript

 * should be used, which does additional manipulation of the script settings

 * stack. In bug 991758, we'll add hard invariants to SpiderMonkey, such that

 * any attempt to run script without an AutoEntryScript on the stack will

 * fail. This prevents system code from accidentally triggering script

 * execution at inopportune moments via surreptitious getters and proxies.

*/

class MOZ_STACK_CLASS AutoJSAPI : protected ScriptSettingsStackEntry {

 public:

  // Trivial constructor. One of the Init functions must be called before

  // accessing the JSContext through cx().

  AutoJSAPI();

  ~AutoJSAPI();

  // This uses the SafeJSContext (or worker equivalent), and enters a null

  // compartment, so that the consumer is forced to select a compartment to

  // enter before manipulating objects.

//

  // This variant will ensure that any errors reported by this AutoJSAPI as it

  // comes off the stack will not fire error events or be associated with any

  // particular web-visible global.

  void Init();

  // This uses the SafeJSContext (or worker equivalent), and enters the

  // compartment of aGlobalObject.

  // If aGlobalObject or its associated JS global are null then it returns

  // false and use of cx() will cause an assertion.

//

  // If aGlobalObject represents a web-visible global, errors reported by this

  // AutoJSAPI as it comes off the stack will fire the relevant error events and

  // show up in the corresponding web console.

//

  // Successfully initializing the AutoJSAPI will ensure that it enters the

  // Realm of aGlobalObject's JSObject and exposes that JSObject to active JS.

  [[nodiscard]] bool Init(nsIGlobalObject* aGlobalObject);

  // This is a helper that grabs the native global associated with aObject and

  // invokes the above Init() with that. aObject must not be a cross-compartment

  // wrapper: CCWs are not associated with a single global.

  [[nodiscard]] bool Init(JSObject* aObject);

  // Unsurprisingly, this uses aCx and enters the compartment of aGlobalObject.

  // If aGlobalObject or its associated JS global are null then it returns

  // false and use of cx() will cause an assertion.

  // If aCx is null it will cause an assertion.

//

  // If aGlobalObject represents a web-visible global, errors reported by this

  // AutoJSAPI as it comes off the stack will fire the relevant error events and

  // show up in the corresponding web console.

  [[nodiscard]] bool Init(nsIGlobalObject* aGlobalObject, JSContext* aCx);

  // Convenience functions to take an nsPIDOMWindowInner or nsGlobalWindowInner,

  // when it is more easily available than an nsIGlobalObject.

  [[nodiscard]] bool Init(nsPIDOMWindowInner* aWindow);

  [[nodiscard]] bool Init(nsPIDOMWindowInner* aWindow, JSContext* aCx);

  [[nodiscard]] bool Init(nsGlobalWindowInner* aWindow);

  [[nodiscard]] bool Init(nsGlobalWindowInner* aWindow, JSContext* aCx);

  JSContext* cx() const {

    MOZ_ASSERT(mCx, "Must call Init before using an AutoJSAPI");

    MOZ_ASSERT(IsStackTop());

    return mCx;

#ifdef DEBUG

  bool IsStackTop() const;

#endif

  // If HasException, report it.  Otherwise, a no-op.

  void ReportException();

  bool HasException() const {

    MOZ_ASSERT(IsStackTop());

    return JS_IsExceptionPending(cx());

};

  // Transfers ownership of the current exception from the JS engine to the

  // caller. Callers must ensure that HasException() is true, and that cx()

  // is in a non-null compartment.

//

  // Note that this fails if and only if we OOM while wrapping the exception

  // into the current compartment.

  [[nodiscard]] bool StealException(JS::MutableHandle<JS::Value> aVal);

  // As for StealException(), but uses the JS::ExceptionStack class to also

  // include the exception's stack, represented by SavedFrames.

  [[nodiscard]] bool StealExceptionAndStack(JS::ExceptionStack* aExnStack);

  // Peek the current exception from the JS engine, without stealing it.

  // Callers must ensure that HasException() is true, and that cx() is in a

  // non-null compartment.

//

  // Note that this fails if and only if we OOM while wrapping the exception

  // into the current compartment.

  [[nodiscard]] bool PeekException(JS::MutableHandle<JS::Value> aVal);

  void ClearException() {

    MOZ_ASSERT(IsStackTop());

    JS_ClearPendingException(cx());

 protected:

  // Protected constructor for subclasses.  This constructor initialises the

  // AutoJSAPI, so Init must NOT be called on subclasses that use this.

  AutoJSAPI(nsIGlobalObject* aGlobalObject, bool aIsMainThread, Type aType);

  mozilla::Maybe<JSAutoNullableRealm> mAutoNullableRealm;

  JSContext* mCx;

  // Whether we're mainthread or not; set when we're initialized.

  bool mIsMainThread;

  Maybe<JS::WarningReporter> mOldWarningReporter;

 private:

  void InitInternal(nsIGlobalObject* aGlobalObject, JSObject* aGlobal,

                    JSContext* aCx, bool aIsMainThread);

  AutoJSAPI(const AutoJSAPI&) = delete;

  AutoJSAPI& operator=(const AutoJSAPI&) = delete;

};

/*

 * A class that can be used to force a particular incumbent script on the stack.

*/

class AutoIncumbentScript : protected ScriptSettingsStackEntry {

 public:

  explicit AutoIncumbentScript(nsIGlobalObject* aGlobalObject);

  ~AutoIncumbentScript();

 private:

  JS::AutoHideScriptedCaller mCallerOverride;

};

/*

 * A class to put the JS engine in an unusable state. The subject principal

 * will become System, the information on the script settings stack is

 * rendered inaccessible, and JSAPI may not be manipulated until the class is

 * either popped or an AutoJSAPI instance is subsequently pushed.

 * This class may not be instantiated if an exception is pending.

*/

class AutoNoJSAPI : protected ScriptSettingsStackEntry,

                    protected JSAutoNullableRealm {

 public:

  AutoNoJSAPI() : AutoNoJSAPI(danger::GetJSContext()) {}

  ~AutoNoJSAPI();

 private:

  // Helper constructor to avoid doing GetJSContext() multiple times

  // during construction.

  explicit AutoNoJSAPI(JSContext* aCx);

  // Stashed JSContext* so we don't need to GetJSContext in our destructor.

  // It's probably safe to hold on to this, in the sense that the world should

  // not get torn down while we're on the stack, and if it's not, we'd need to

  // fix JSAutoNullableRealm to not hold on to a JSContext either, or

  // something.

  JSContext* mCx;

  AutoYieldJSThreadExecution mExecutionYield;

};

}  // namespace dom

/**

 * Use AutoJSContext when you need a JS context on the stack but don't have one

 * passed as a parameter. AutoJSContext will take care of finding the most

 * appropriate JS context and release it when leaving the stack.

*/

class MOZ_RAII AutoJSContext {

 public:

  explicit AutoJSContext();

  operator JSContext*() const;

 protected:

  JSContext* mCx;

  dom::AutoJSAPI mJSAPI;

};

/**

 * AutoSafeJSContext is similar to AutoJSContext but will only return the safe

 * JS context. That means it will never call

 * nsContentUtils::GetCurrentJSContext().

 * Note - This is deprecated. Please use AutoJSAPI instead.

*/

class MOZ_RAII AutoSafeJSContext : public dom::AutoJSAPI {

 public:

  explicit AutoSafeJSContext();

  operator JSContext*() const { return cx(); }

 private:

};

/**

 * Use AutoSlowOperation when native side calls many JS callbacks in a row

 * and slow script dialog should be activated if too much time is spent going

 * through those callbacks.

 * AutoSlowOperation puts an AutoScriptActivity on the stack so that we don't

 * continue to reset the watchdog. CheckForInterrupt can then be used to check

 * whether JS execution should be interrupted.

 * This class (including CheckForInterrupt) is a no-op when used off the main

 * thread.

*/

class MOZ_RAII AutoSlowOperation {

 public:

  explicit AutoSlowOperation();

  void CheckForInterrupt();

 private:

  bool mIsMainThread;

  Maybe<xpc::AutoScriptActivity> mScriptActivity;

};

/**

 * A class to disable interrupt callback temporary.

*/

class MOZ_RAII AutoDisableJSInterruptCallback {

 public:

  explicit AutoDisableJSInterruptCallback(JSContext* aCx)

      : mCx(aCx), mOld(JS_DisableInterruptCallback(aCx)) {}

  ~AutoDisableJSInterruptCallback() { JS_ResetInterruptCallback(mCx, mOld); }

 private:

  JSContext* mCx;

  bool mOld;

};

/**

 * A helper class which allows to allow-list legacy callers executing script

 * in the AutoEntryScript constructor. The goal is to remove these exceptions

 * one by one. Do not add a new one without review from a DOM peer.

*/

class MOZ_RAII AutoAllowLegacyScriptExecution {

 public:

  AutoAllowLegacyScriptExecution();

  ~AutoAllowLegacyScriptExecution();

  static bool IsAllowed();

 private:

  static int sAutoAllowLegacyScriptExecution;

};

}  // namespace mozilla

#endif  // mozilla_dom_ScriptSettings_h