mirror of
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64cdba4615
Differential Revision: https://phabricator.services.mozilla.com/D186769
769 lines
30 KiB
C++
769 lines
30 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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* vim: set ts=8 sts=2 et sw=2 tw=80:
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef js_Proxy_h
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#define js_Proxy_h
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#include "mozilla/Maybe.h"
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#include "jstypes.h" // for JS_PUBLIC_API, JS_PUBLIC_DATA
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#include "js/Array.h" // JS::IsArrayAnswer
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#include "js/CallNonGenericMethod.h"
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#include "js/Class.h"
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#include "js/HeapAPI.h" // for ObjectIsMarkedBlack
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#include "js/Id.h" // for jsid
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#include "js/Object.h" // JS::GetClass
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#include "js/RootingAPI.h" // for Handle, MutableHandle (ptr only)
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#include "js/shadow/Object.h" // JS::shadow::Object
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#include "js/TypeDecls.h" // for HandleObject, HandleId, HandleValue, MutableHandleIdVector, MutableHandleValue, MutableHand...
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#include "js/Value.h" // for Value, AssertValueIsNotGray, UndefinedValue, ObjectOrNullValue
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namespace js {
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class RegExpShared;
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class JS_PUBLIC_API Wrapper;
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/*
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* [SMDOC] Proxy Objects
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*
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* A proxy is a JSObject with highly customizable behavior. ES6 specifies a
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* single kind of proxy, but the customization mechanisms we use to implement
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* ES6 Proxy objects are also useful wherever an object with weird behavior is
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* wanted. Proxies are used to implement:
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*
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* - the scope objects used by the Debugger's frame.eval() method
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* (see js::GetDebugEnvironment)
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*
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* - the khuey hack, whereby a whole compartment can be blown away
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* even if other compartments hold references to objects in it
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* (see js::NukeCrossCompartmentWrappers)
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*
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* - XPConnect security wrappers, which protect chrome from malicious content
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* (js/xpconnect/wrappers)
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*
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* - DOM objects with special property behavior, like named getters
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* (dom/bindings/Codegen.py generates these proxies from WebIDL)
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*
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* ### Proxies and internal methods
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*
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* ES2019 specifies 13 internal methods. The runtime semantics of just about
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* everything a script can do to an object is specified in terms of these
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* internal methods. For example:
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*
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* JS code ES6 internal method that gets called
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* --------------------------- --------------------------------
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* obj.prop obj.[[Get]](obj, "prop")
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* "prop" in obj obj.[[HasProperty]]("prop")
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* new obj() obj.[[Construct]](<empty argument List>)
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*
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* With regard to the implementation of these internal methods, there are three
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* very different kinds of object in SpiderMonkey.
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*
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* 1. Native objects cover most objects and contain both internal slots and
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* properties. JSClassOps and ObjectOps may be used to override certain
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* default behaviors.
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*
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* 2. Proxy objects are composed of internal slots and a ProxyHandler. The
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* handler contains C++ methods that can implement these standard (and
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* non-standard) internal methods. JSClassOps and ObjectOps for the base
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* ProxyObject invoke the handler methods as appropriate.
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*
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* 3. Objects with custom layouts like TypedObjects. These rely on JSClassOps
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* and ObjectOps to implement internal methods.
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*
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* Native objects with custom JSClassOps / ObjectOps are used when the object
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* behaves very similar to a normal object such as the ArrayObject and it's
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* length property. Most usages wrapping a C++ or other type should prefer
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* using a Proxy. Using the proxy approach makes it much easier to create an
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* ECMAScript and JIT compatible object, particularly if using an appropriate
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* base class.
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*
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* Just about anything you do to a proxy will end up going through a C++
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* virtual method call. Possibly several. There's no reason the JITs and ICs
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* can't specialize for particular proxies, based on the handler; but currently
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* we don't do much of this, so the virtual method overhead typically is
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* actually incurred.
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*
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* ### The proxy handler hierarchy
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*
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* A major use case for proxies is to forward each internal method call to
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* another object, known as its target. The target can be an arbitrary JS
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* object. Not every proxy has the notion of a target, however.
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*
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* To minimize code duplication, a set of abstract proxy handler classes is
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* provided, from which other handlers may inherit. These abstract classes are
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* organized in the following hierarchy:
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*
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* BaseProxyHandler
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* |
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* ForwardingProxyHandler // has a target and forwards internal methods
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* |
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* Wrapper // can be unwrapped to reveal target
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* | // (see js::CheckedUnwrap)
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* |
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* CrossCompartmentWrapper // target is in another compartment;
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* // implements membrane between compartments
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*
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* Example: Some DOM objects (including all the arraylike DOM objects) are
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* implemented as proxies. Since these objects don't need to forward operations
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* to any underlying JS object, BaseDOMProxyHandler directly subclasses
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* BaseProxyHandler.
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*
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* Gecko's security wrappers are examples of cross-compartment wrappers.
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*
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* ### Proxy prototype chains
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*
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* While most ECMAScript internal methods are handled by simply calling the
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* handler method, the [[GetPrototypeOf]] / [[SetPrototypeOf]] behaviors may
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* follow one of two models:
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*
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* 1. A concrete prototype object (or null) is passed to object construction
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* and ordinary prototype read and write applies. The prototype-related
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* handler hooks are never called in this case. The [[Prototype]] slot is
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* used to store the current prototype value.
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*
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* 2. TaggedProto::LazyProto is passed to NewProxyObject (or the
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* ProxyOptions::lazyProto flag is set). Each read or write of the
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* prototype will invoke the handler. This dynamic prototype behavior may
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* be useful for wrapper-like objects. If this mode is used the
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* getPrototype handler at a minimum must be implemented.
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*
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* NOTE: In this mode the [[Prototype]] internal slot is unavailable and
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* must be simulated if needed. This is non-standard, but an
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* appropriate handler can hide this implementation detail.
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*
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* One subtlety here is that ECMAScript has a notion of "ordinary" prototypes.
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* An object that doesn't override [[GetPrototypeOf]] is considered to have an
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* ordinary prototype. The getPrototypeIfOrdinary handler must be implemented
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* by you or your base class. Typically model 1 will be considered "ordinary"
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* and model 2 will not.
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*/
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/*
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* BaseProxyHandler is the most generic kind of proxy handler. It does not make
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* any assumptions about the target. Consequently, it does not provide any
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* default implementation for most methods. As a convenience, a few high-level
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* methods, like get() and set(), are given default implementations that work by
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* calling the low-level methods, like getOwnPropertyDescriptor().
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*
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* Important: If you add a method here, you should probably also add a
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* Proxy::foo entry point with an AutoEnterPolicy. If you don't, you need an
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* explicit override for the method in SecurityWrapper. See bug 945826 comment
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* 0.
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*/
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class JS_PUBLIC_API BaseProxyHandler {
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/*
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* Sometimes it's desirable to designate groups of proxy handlers as
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* "similar". For this, we use the notion of a "family": A consumer-provided
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* opaque pointer that designates the larger group to which this proxy
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* belongs.
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*
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* If it will never be important to differentiate this proxy from others as
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* part of a distinct group, nullptr may be used instead.
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*/
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const void* mFamily;
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/*
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* Proxy handlers can use mHasPrototype to request the following special
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* treatment from the JS engine:
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*
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* - When mHasPrototype is true, the engine never calls these methods:
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* has, set, enumerate, iterate. Instead, for these operations,
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* it calls the "own" methods like getOwnPropertyDescriptor, hasOwn,
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* defineProperty, getOwnEnumerablePropertyKeys, etc.,
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* and consults the prototype chain if needed.
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*
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* - When mHasPrototype is true, the engine calls handler->get() only if
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* handler->hasOwn() says an own property exists on the proxy. If not,
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* it consults the prototype chain.
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*
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* This is useful because it frees the ProxyHandler from having to implement
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* any behavior having to do with the prototype chain.
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*/
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bool mHasPrototype;
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/*
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* All proxies indicate whether they have any sort of interesting security
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* policy that might prevent the caller from doing something it wants to
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* the object. In the case of wrappers, this distinction is used to
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* determine whether the caller may strip off the wrapper if it so desires.
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*/
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bool mHasSecurityPolicy;
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public:
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explicit constexpr BaseProxyHandler(const void* aFamily,
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bool aHasPrototype = false,
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bool aHasSecurityPolicy = false)
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: mFamily(aFamily),
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mHasPrototype(aHasPrototype),
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mHasSecurityPolicy(aHasSecurityPolicy) {}
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bool hasPrototype() const { return mHasPrototype; }
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bool hasSecurityPolicy() const { return mHasSecurityPolicy; }
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inline const void* family() const { return mFamily; }
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static size_t offsetOfFamily() { return offsetof(BaseProxyHandler, mFamily); }
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virtual bool finalizeInBackground(const JS::Value& priv) const {
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/*
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* Called on creation of a proxy to determine whether its finalize
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* method can be finalized on the background thread.
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*/
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return true;
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}
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virtual bool canNurseryAllocate() const {
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/*
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* Nursery allocation is allowed if and only if it is safe to not
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* run |finalize| when the ProxyObject dies.
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*/
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return false;
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}
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/* Policy enforcement methods.
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*
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* enter() allows the policy to specify whether the caller may perform |act|
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* on the proxy's |id| property. In the case when |act| is CALL, |id| is
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* generally JS::PropertyKey::isVoid. The |mayThrow| parameter indicates
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* whether a handler that wants to throw custom exceptions when denying
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* should do so or not.
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*
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* The |act| parameter to enter() specifies the action being performed.
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* If |bp| is false, the method suggests that the caller throw (though it
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* may still decide to squelch the error).
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*
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* We make these OR-able so that assertEnteredPolicy can pass a union of them.
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* For example, get{,Own}PropertyDescriptor is invoked by calls to ::get()
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* ::set(), in addition to being invoked on its own, so there are several
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* valid Actions that could have been entered.
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*/
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typedef uint32_t Action;
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enum {
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NONE = 0x00,
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GET = 0x01,
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SET = 0x02,
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CALL = 0x04,
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ENUMERATE = 0x08,
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GET_PROPERTY_DESCRIPTOR = 0x10
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};
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virtual bool enter(JSContext* cx, JS::HandleObject wrapper, JS::HandleId id,
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Action act, bool mayThrow, bool* bp) const;
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/* Standard internal methods. */
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virtual bool getOwnPropertyDescriptor(
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JSContext* cx, JS::HandleObject proxy, JS::HandleId id,
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JS::MutableHandle<mozilla::Maybe<JS::PropertyDescriptor>> desc) const = 0;
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virtual bool defineProperty(JSContext* cx, JS::HandleObject proxy,
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JS::HandleId id,
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JS::Handle<JS::PropertyDescriptor> desc,
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JS::ObjectOpResult& result) const = 0;
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virtual bool ownPropertyKeys(JSContext* cx, JS::HandleObject proxy,
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JS::MutableHandleIdVector props) const = 0;
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virtual bool delete_(JSContext* cx, JS::HandleObject proxy, JS::HandleId id,
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JS::ObjectOpResult& result) const = 0;
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/*
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* These methods are standard, but the engine does not normally call them.
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* They're opt-in. See "Proxy prototype chains" above.
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*
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* getPrototype() crashes if called. setPrototype() throws a TypeError.
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*/
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virtual bool getPrototype(JSContext* cx, JS::HandleObject proxy,
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JS::MutableHandleObject protop) const;
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virtual bool setPrototype(JSContext* cx, JS::HandleObject proxy,
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JS::HandleObject proto,
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JS::ObjectOpResult& result) const;
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/* Non-standard but conceptual kin to {g,s}etPrototype, so these live here. */
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virtual bool getPrototypeIfOrdinary(JSContext* cx, JS::HandleObject proxy,
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bool* isOrdinary,
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JS::MutableHandleObject protop) const = 0;
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virtual bool setImmutablePrototype(JSContext* cx, JS::HandleObject proxy,
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bool* succeeded) const;
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virtual bool preventExtensions(JSContext* cx, JS::HandleObject proxy,
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JS::ObjectOpResult& result) const = 0;
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virtual bool isExtensible(JSContext* cx, JS::HandleObject proxy,
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bool* extensible) const = 0;
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/*
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* These standard internal methods are implemented, as a convenience, so
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* that ProxyHandler subclasses don't have to provide every single method.
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*
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* The base-class implementations work by calling getOwnPropertyDescriptor()
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* and going up the [[Prototype]] chain if necessary. The algorithm for this
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* follows what is defined for Ordinary Objects in the ES spec.
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* They do not follow any standard. When in doubt, override them.
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*/
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virtual bool has(JSContext* cx, JS::HandleObject proxy, JS::HandleId id,
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bool* bp) const;
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virtual bool get(JSContext* cx, JS::HandleObject proxy,
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JS::HandleValue receiver, JS::HandleId id,
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JS::MutableHandleValue vp) const;
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virtual bool set(JSContext* cx, JS::HandleObject proxy, JS::HandleId id,
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JS::HandleValue v, JS::HandleValue receiver,
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JS::ObjectOpResult& result) const;
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// Use the ProxyExpando object for private fields, rather than taking the
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// normal get/set/defineField paths.
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virtual bool useProxyExpandoObjectForPrivateFields() const { return true; }
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// For some exotic objects (WindowProxy, Location), we want to be able to
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// throw rather than allow private fields on these objects.
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//
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// As a simplfying assumption, if throwOnPrivateFields returns true,
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// we should also return true to useProxyExpandoObjectForPrivateFields.
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virtual bool throwOnPrivateField() const { return false; }
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/*
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* [[Call]] and [[Construct]] are standard internal methods but according
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* to the spec, they are not present on every object.
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*
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* SpiderMonkey never calls a proxy's call()/construct() internal method
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* unless isCallable()/isConstructor() returns true for that proxy.
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*
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* BaseProxyHandler::isCallable()/isConstructor() always return false, and
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* BaseProxyHandler::call()/construct() crash if called. So if you're
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* creating a kind of that is never callable, you don't have to override
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* anything, but otherwise you probably want to override all four.
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*/
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virtual bool call(JSContext* cx, JS::HandleObject proxy,
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const JS::CallArgs& args) const;
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virtual bool construct(JSContext* cx, JS::HandleObject proxy,
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const JS::CallArgs& args) const;
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/* SpiderMonkey extensions. */
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virtual bool enumerate(JSContext* cx, JS::HandleObject proxy,
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JS::MutableHandleIdVector props) const;
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virtual bool hasOwn(JSContext* cx, JS::HandleObject proxy, JS::HandleId id,
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bool* bp) const;
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virtual bool getOwnEnumerablePropertyKeys(
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JSContext* cx, JS::HandleObject proxy,
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JS::MutableHandleIdVector props) const;
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virtual bool nativeCall(JSContext* cx, JS::IsAcceptableThis test,
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JS::NativeImpl impl, const JS::CallArgs& args) const;
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virtual bool getBuiltinClass(JSContext* cx, JS::HandleObject proxy,
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ESClass* cls) const;
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virtual bool isArray(JSContext* cx, JS::HandleObject proxy,
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JS::IsArrayAnswer* answer) const;
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virtual const char* className(JSContext* cx, JS::HandleObject proxy) const;
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virtual JSString* fun_toString(JSContext* cx, JS::HandleObject proxy,
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bool isToSource) const;
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virtual RegExpShared* regexp_toShared(JSContext* cx,
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JS::HandleObject proxy) const;
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virtual bool boxedValue_unbox(JSContext* cx, JS::HandleObject proxy,
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JS::MutableHandleValue vp) const;
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virtual void trace(JSTracer* trc, JSObject* proxy) const;
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virtual void finalize(JS::GCContext* gcx, JSObject* proxy) const;
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virtual size_t objectMoved(JSObject* proxy, JSObject* old) const;
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// Allow proxies, wrappers in particular, to specify callability at runtime.
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// Note: These do not take const JSObject*, but they do in spirit.
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// We are not prepared to do this, as there's little const correctness
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// in the external APIs that handle proxies.
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virtual bool isCallable(JSObject* obj) const;
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virtual bool isConstructor(JSObject* obj) const;
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virtual bool getElements(JSContext* cx, JS::HandleObject proxy,
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uint32_t begin, uint32_t end,
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ElementAdder* adder) const;
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virtual bool isScripted() const { return false; }
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};
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extern JS_PUBLIC_DATA const JSClass ProxyClass;
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inline bool IsProxy(const JSObject* obj) {
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return reinterpret_cast<const JS::shadow::Object*>(obj)->shape->isProxy();
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}
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namespace detail {
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// Proxy slot layout
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// -----------------
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//
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// Every proxy has a ProxyValueArray that contains the following Values:
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//
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// - The expando slot. This is used to hold private fields should they be
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// stamped into a non-forwarding proxy type.
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// - The private slot.
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// - The reserved slots. The number of slots is determined by the proxy's Class.
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//
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// Proxy objects store a pointer to the reserved slots (ProxyReservedSlots*).
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// The ProxyValueArray and the private slot can be accessed using
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// ProxyValueArray::fromReservedSlots or ProxyDataLayout::values.
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//
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// Storing a pointer to ProxyReservedSlots instead of ProxyValueArray has a
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// number of advantages. In particular, it means JS::GetReservedSlot and
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// JS::SetReservedSlot can be used with both proxies and native objects. This
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// works because the ProxyReservedSlots* pointer is stored where native objects
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// store their dynamic slots pointer.
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struct ProxyReservedSlots {
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JS::Value slots[1];
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static constexpr ptrdiff_t offsetOfPrivateSlot();
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static inline int offsetOfSlot(size_t slot) {
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return offsetof(ProxyReservedSlots, slots[0]) + slot * sizeof(JS::Value);
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}
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void init(size_t nreserved) {
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for (size_t i = 0; i < nreserved; i++) {
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slots[i] = JS::UndefinedValue();
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}
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}
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ProxyReservedSlots(const ProxyReservedSlots&) = delete;
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void operator=(const ProxyReservedSlots&) = delete;
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};
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struct ProxyValueArray {
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JS::Value expandoSlot;
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JS::Value privateSlot;
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ProxyReservedSlots reservedSlots;
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void init(size_t nreserved) {
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expandoSlot = JS::ObjectOrNullValue(nullptr);
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privateSlot = JS::UndefinedValue();
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reservedSlots.init(nreserved);
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}
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static MOZ_ALWAYS_INLINE ProxyValueArray* fromReservedSlots(
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ProxyReservedSlots* slots) {
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uintptr_t p = reinterpret_cast<uintptr_t>(slots);
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return reinterpret_cast<ProxyValueArray*>(p - offsetOfReservedSlots());
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}
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static constexpr size_t offsetOfReservedSlots() {
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return offsetof(ProxyValueArray, reservedSlots);
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}
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static size_t allocCount(size_t nreserved) {
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static_assert(offsetOfReservedSlots() % sizeof(JS::Value) == 0);
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return offsetOfReservedSlots() / sizeof(JS::Value) + nreserved;
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}
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static size_t sizeOf(size_t nreserved) {
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return allocCount(nreserved) * sizeof(JS::Value);
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}
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ProxyValueArray(const ProxyValueArray&) = delete;
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void operator=(const ProxyValueArray&) = delete;
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};
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|
|
/* static */
|
|
constexpr ptrdiff_t ProxyReservedSlots::offsetOfPrivateSlot() {
|
|
return -ptrdiff_t(ProxyValueArray::offsetOfReservedSlots()) +
|
|
offsetof(ProxyValueArray, privateSlot);
|
|
}
|
|
|
|
// All proxies share the same data layout. Following the object's shape and
|
|
// type, the proxy has a ProxyDataLayout structure with a pointer to an array
|
|
// of values and the proxy's handler. This is designed both so that proxies can
|
|
// be easily swapped with other objects (via RemapWrapper) and to mimic the
|
|
// layout of other objects (proxies and other objects have the same size) so
|
|
// that common code can access either type of object.
|
|
//
|
|
// See GetReservedOrProxyPrivateSlot below.
|
|
struct ProxyDataLayout {
|
|
ProxyReservedSlots* reservedSlots;
|
|
const BaseProxyHandler* handler;
|
|
|
|
MOZ_ALWAYS_INLINE ProxyValueArray* values() const {
|
|
return ProxyValueArray::fromReservedSlots(reservedSlots);
|
|
}
|
|
};
|
|
|
|
#ifdef JS_64BIT
|
|
constexpr uint32_t ProxyDataOffset = 1 * sizeof(void*);
|
|
#else
|
|
constexpr uint32_t ProxyDataOffset = 2 * sizeof(void*);
|
|
#endif
|
|
|
|
inline ProxyDataLayout* GetProxyDataLayout(JSObject* obj) {
|
|
MOZ_ASSERT(IsProxy(obj));
|
|
return reinterpret_cast<ProxyDataLayout*>(reinterpret_cast<uint8_t*>(obj) +
|
|
ProxyDataOffset);
|
|
}
|
|
|
|
inline const ProxyDataLayout* GetProxyDataLayout(const JSObject* obj) {
|
|
MOZ_ASSERT(IsProxy(obj));
|
|
return reinterpret_cast<const ProxyDataLayout*>(
|
|
reinterpret_cast<const uint8_t*>(obj) + ProxyDataOffset);
|
|
}
|
|
|
|
JS_PUBLIC_API void SetValueInProxy(JS::Value* slot, const JS::Value& value);
|
|
|
|
inline void SetProxyReservedSlotUnchecked(JSObject* obj, size_t n,
|
|
const JS::Value& extra) {
|
|
MOZ_ASSERT(n < JSCLASS_RESERVED_SLOTS(JS::GetClass(obj)));
|
|
|
|
JS::Value* vp = &GetProxyDataLayout(obj)->reservedSlots->slots[n];
|
|
|
|
// Trigger a barrier before writing the slot.
|
|
if (vp->isGCThing() || extra.isGCThing()) {
|
|
SetValueInProxy(vp, extra);
|
|
} else {
|
|
*vp = extra;
|
|
}
|
|
}
|
|
|
|
} // namespace detail
|
|
|
|
inline const BaseProxyHandler* GetProxyHandler(const JSObject* obj) {
|
|
return detail::GetProxyDataLayout(obj)->handler;
|
|
}
|
|
|
|
inline const JS::Value& GetProxyPrivate(const JSObject* obj) {
|
|
return detail::GetProxyDataLayout(obj)->values()->privateSlot;
|
|
}
|
|
|
|
inline const JS::Value& GetProxyExpando(const JSObject* obj) {
|
|
return detail::GetProxyDataLayout(obj)->values()->expandoSlot;
|
|
}
|
|
|
|
inline JSObject* GetProxyTargetObject(const JSObject* obj) {
|
|
return GetProxyPrivate(obj).toObjectOrNull();
|
|
}
|
|
|
|
inline const JS::Value& GetProxyReservedSlot(const JSObject* obj, size_t n) {
|
|
MOZ_ASSERT(n < JSCLASS_RESERVED_SLOTS(JS::GetClass(obj)));
|
|
return detail::GetProxyDataLayout(obj)->reservedSlots->slots[n];
|
|
}
|
|
|
|
inline void SetProxyHandler(JSObject* obj, const BaseProxyHandler* handler) {
|
|
detail::GetProxyDataLayout(obj)->handler = handler;
|
|
}
|
|
|
|
inline void SetProxyReservedSlot(JSObject* obj, size_t n,
|
|
const JS::Value& extra) {
|
|
#ifdef DEBUG
|
|
if (gc::detail::ObjectIsMarkedBlack(obj)) {
|
|
JS::AssertValueIsNotGray(extra);
|
|
}
|
|
#endif
|
|
|
|
detail::SetProxyReservedSlotUnchecked(obj, n, extra);
|
|
}
|
|
|
|
inline void SetProxyPrivate(JSObject* obj, const JS::Value& value) {
|
|
#ifdef DEBUG
|
|
if (gc::detail::ObjectIsMarkedBlack(obj)) {
|
|
JS::AssertValueIsNotGray(value);
|
|
}
|
|
#endif
|
|
|
|
JS::Value* vp = &detail::GetProxyDataLayout(obj)->values()->privateSlot;
|
|
|
|
// Trigger a barrier before writing the slot.
|
|
if (vp->isGCThing() || value.isGCThing()) {
|
|
detail::SetValueInProxy(vp, value);
|
|
} else {
|
|
*vp = value;
|
|
}
|
|
}
|
|
|
|
inline bool IsScriptedProxy(const JSObject* obj) {
|
|
return IsProxy(obj) && GetProxyHandler(obj)->isScripted();
|
|
}
|
|
|
|
class MOZ_STACK_CLASS ProxyOptions {
|
|
protected:
|
|
/* protected constructor for subclass */
|
|
explicit ProxyOptions(bool lazyProtoArg)
|
|
: lazyProto_(lazyProtoArg), clasp_(&ProxyClass) {}
|
|
|
|
public:
|
|
ProxyOptions() : ProxyOptions(false) {}
|
|
|
|
bool lazyProto() const { return lazyProto_; }
|
|
ProxyOptions& setLazyProto(bool flag) {
|
|
lazyProto_ = flag;
|
|
return *this;
|
|
}
|
|
|
|
const JSClass* clasp() const { return clasp_; }
|
|
ProxyOptions& setClass(const JSClass* claspArg) {
|
|
clasp_ = claspArg;
|
|
return *this;
|
|
}
|
|
|
|
private:
|
|
bool lazyProto_;
|
|
const JSClass* clasp_;
|
|
};
|
|
|
|
JS_PUBLIC_API JSObject* NewProxyObject(
|
|
JSContext* cx, const BaseProxyHandler* handler, JS::HandleValue priv,
|
|
JSObject* proto, const ProxyOptions& options = ProxyOptions());
|
|
|
|
JSObject* RenewProxyObject(JSContext* cx, JSObject* obj,
|
|
BaseProxyHandler* handler, const JS::Value& priv);
|
|
|
|
class JS_PUBLIC_API AutoEnterPolicy {
|
|
public:
|
|
typedef BaseProxyHandler::Action Action;
|
|
AutoEnterPolicy(JSContext* cx, const BaseProxyHandler* handler,
|
|
JS::HandleObject wrapper, JS::HandleId id, Action act,
|
|
bool mayThrow)
|
|
#ifdef JS_DEBUG
|
|
: context(nullptr)
|
|
#endif
|
|
{
|
|
allow = handler->hasSecurityPolicy()
|
|
? handler->enter(cx, wrapper, id, act, mayThrow, &rv)
|
|
: true;
|
|
recordEnter(cx, wrapper, id, act);
|
|
// We want to throw an exception if all of the following are true:
|
|
// * The policy disallowed access.
|
|
// * The policy set rv to false, indicating that we should throw.
|
|
// * The caller did not instruct us to ignore exceptions.
|
|
// * The policy did not throw itself.
|
|
if (!allow && !rv && mayThrow) {
|
|
reportErrorIfExceptionIsNotPending(cx, id);
|
|
}
|
|
}
|
|
|
|
virtual ~AutoEnterPolicy() { recordLeave(); }
|
|
inline bool allowed() { return allow; }
|
|
inline bool returnValue() {
|
|
MOZ_ASSERT(!allowed());
|
|
return rv;
|
|
}
|
|
|
|
protected:
|
|
// no-op constructor for subclass
|
|
AutoEnterPolicy()
|
|
#ifdef JS_DEBUG
|
|
: context(nullptr),
|
|
enteredAction(BaseProxyHandler::NONE)
|
|
#endif
|
|
{
|
|
}
|
|
void reportErrorIfExceptionIsNotPending(JSContext* cx, JS::HandleId id);
|
|
bool allow;
|
|
bool rv;
|
|
|
|
#ifdef JS_DEBUG
|
|
JSContext* context;
|
|
mozilla::Maybe<JS::HandleObject> enteredProxy;
|
|
mozilla::Maybe<JS::HandleId> enteredId;
|
|
Action enteredAction;
|
|
|
|
// NB: We explicitly don't track the entered action here, because sometimes
|
|
// set() methods do an implicit get() during their implementation, leading
|
|
// to spurious assertions.
|
|
AutoEnterPolicy* prev;
|
|
void recordEnter(JSContext* cx, JS::HandleObject proxy, JS::HandleId id,
|
|
Action act);
|
|
void recordLeave();
|
|
|
|
friend JS_PUBLIC_API void assertEnteredPolicy(JSContext* cx, JSObject* proxy,
|
|
jsid id, Action act);
|
|
#else
|
|
inline void recordEnter(JSContext* cx, JSObject* proxy, jsid id, Action act) {
|
|
}
|
|
inline void recordLeave() {}
|
|
#endif
|
|
|
|
private:
|
|
// This operator needs to be deleted explicitly, otherwise Visual C++ will
|
|
// create it automatically when it is part of the export JS API. In that
|
|
// case, compile would fail because HandleId is not allowed to be assigned
|
|
// and consequently instantiation of assign operator of mozilla::Maybe
|
|
// would fail. See bug 1325351 comment 16. Copy constructor is removed at
|
|
// the same time for consistency.
|
|
AutoEnterPolicy(const AutoEnterPolicy&) = delete;
|
|
AutoEnterPolicy& operator=(const AutoEnterPolicy&) = delete;
|
|
};
|
|
|
|
#ifdef JS_DEBUG
|
|
class JS_PUBLIC_API AutoWaivePolicy : public AutoEnterPolicy {
|
|
public:
|
|
AutoWaivePolicy(JSContext* cx, JS::HandleObject proxy, JS::HandleId id,
|
|
BaseProxyHandler::Action act) {
|
|
allow = true;
|
|
recordEnter(cx, proxy, id, act);
|
|
}
|
|
};
|
|
#else
|
|
class JS_PUBLIC_API AutoWaivePolicy {
|
|
public:
|
|
AutoWaivePolicy(JSContext* cx, JS::HandleObject proxy, JS::HandleId id,
|
|
BaseProxyHandler::Action act) {}
|
|
};
|
|
#endif
|
|
|
|
#ifdef JS_DEBUG
|
|
extern JS_PUBLIC_API void assertEnteredPolicy(JSContext* cx, JSObject* obj,
|
|
jsid id,
|
|
BaseProxyHandler::Action act);
|
|
#else
|
|
inline void assertEnteredPolicy(JSContext* cx, JSObject* obj, jsid id,
|
|
BaseProxyHandler::Action act) {}
|
|
#endif
|
|
|
|
extern JS_PUBLIC_DATA const JSClassOps ProxyClassOps;
|
|
extern JS_PUBLIC_DATA const js::ClassExtension ProxyClassExtension;
|
|
extern JS_PUBLIC_DATA const js::ObjectOps ProxyObjectOps;
|
|
|
|
template <unsigned Flags>
|
|
constexpr unsigned CheckProxyFlags() {
|
|
constexpr size_t reservedSlots =
|
|
(Flags >> JSCLASS_RESERVED_SLOTS_SHIFT) & JSCLASS_RESERVED_SLOTS_MASK;
|
|
|
|
// For now assert each Proxy Class has at least 1 reserved slot. This is
|
|
// not a hard requirement, but helps catch Classes that need an explicit
|
|
// JSCLASS_HAS_RESERVED_SLOTS since bug 1360523.
|
|
static_assert(reservedSlots > 0,
|
|
"Proxy Classes must have at least 1 reserved slot");
|
|
|
|
constexpr size_t numSlots =
|
|
offsetof(js::detail::ProxyValueArray, reservedSlots) / sizeof(JS::Value);
|
|
|
|
// ProxyValueArray must fit inline in the object, so assert the number of
|
|
// slots does not exceed MAX_FIXED_SLOTS.
|
|
static_assert(numSlots + reservedSlots <= JS::shadow::Object::MAX_FIXED_SLOTS,
|
|
"ProxyValueArray size must not exceed max JSObject size");
|
|
|
|
// Proxies must not have the JSCLASS_SKIP_NURSERY_FINALIZE flag set: they
|
|
// always have finalizers, and whether they can be nursery allocated is
|
|
// controlled by the canNurseryAllocate() method on the proxy handler.
|
|
static_assert(!(Flags & JSCLASS_SKIP_NURSERY_FINALIZE),
|
|
"Proxies must not use JSCLASS_SKIP_NURSERY_FINALIZE; use "
|
|
"the canNurseryAllocate() proxy handler method instead.");
|
|
return Flags;
|
|
}
|
|
|
|
#define PROXY_CLASS_DEF_WITH_CLASS_SPEC(name, flags, classSpec) \
|
|
{ \
|
|
name, \
|
|
JSClass::NON_NATIVE | JSCLASS_IS_PROXY | \
|
|
JSCLASS_DELAY_METADATA_BUILDER | js::CheckProxyFlags<flags>(), \
|
|
&js::ProxyClassOps, classSpec, &js::ProxyClassExtension, \
|
|
&js::ProxyObjectOps \
|
|
}
|
|
|
|
#define PROXY_CLASS_DEF(name, flags) \
|
|
PROXY_CLASS_DEF_WITH_CLASS_SPEC(name, flags, JS_NULL_CLASS_SPEC)
|
|
|
|
// Converts a proxy into a DeadObjectProxy that will throw exceptions on all
|
|
// access. This will run the proxy's finalizer to perform clean-up before the
|
|
// conversion happens.
|
|
JS_PUBLIC_API void NukeNonCCWProxy(JSContext* cx, JS::HandleObject proxy);
|
|
|
|
// This is a variant of js::NukeNonCCWProxy() for CCWs. It should only be called
|
|
// on CCWs that have been removed from CCW tables.
|
|
JS_PUBLIC_API void NukeRemovedCrossCompartmentWrapper(JSContext* cx,
|
|
JSObject* wrapper);
|
|
|
|
} /* namespace js */
|
|
|
|
#endif /* js_Proxy_h */
|