зеркало из https://github.com/mozilla/gecko-dev.git
526 строки
21 KiB
C++
526 строки
21 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 file,
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* You can obtain one at http://mozilla.org/MPL/2.0/. */
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#ifndef mozilla_dom_DOMJSClass_h
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#define mozilla_dom_DOMJSClass_h
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#include "jsapi.h"
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#include "jsfriendapi.h"
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#include "js/PropertySpec.h"
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#include "js/Wrapper.h"
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#include "mozilla/Assertions.h"
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#include "mozilla/Attributes.h"
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#include "mozilla/Likely.h"
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#include "mozilla/dom/PrototypeList.h" // auto-generated
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#include "mozilla/dom/WebIDLPrefs.h" // auto-generated
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#include "mozilla/dom/JSSlots.h"
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class nsCycleCollectionParticipant;
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class nsWrapperCache;
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struct JSStructuredCloneReader;
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struct JSStructuredCloneWriter;
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class nsIGlobalObject;
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// All DOM globals must have a slot at DOM_PROTOTYPE_SLOT.
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#define DOM_PROTOTYPE_SLOT JSCLASS_GLOBAL_SLOT_COUNT
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// Keep this count up to date with any extra global slots added above.
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#define DOM_GLOBAL_SLOTS 1
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// We use these flag bits for the new bindings.
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#define JSCLASS_DOM_GLOBAL JSCLASS_USERBIT1
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#define JSCLASS_IS_DOMIFACEANDPROTOJSCLASS JSCLASS_USERBIT2
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namespace mozilla {
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namespace dom {
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/**
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* Returns true if code running in the given JSContext is allowed to access
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* [SecureContext] API on the given JSObject.
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*
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* [SecureContext] API exposure is restricted to use by code in a Secure
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* Contexts:
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*
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* https://w3c.github.io/webappsec-secure-contexts/
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*
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* Since we want [SecureContext] exposure to depend on the privileges of the
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* running code (rather than the privileges of an object's creator), this
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* function checks to see whether the given JSContext's Realm is flagged
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* as a Secure Context. That allows us to make sure that system principal code
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* (which is marked as a Secure Context) can access Secure Context API on an
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* object in a different realm, regardless of whether the other realm is a
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* Secure Context or not.
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*
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* Checking the JSContext's Realm doesn't work for expanded principal
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* globals accessing a Secure Context web page though (e.g. those used by frame
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* scripts). To handle that we fall back to checking whether the JSObject came
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* from a Secure Context.
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*
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* Note: We'd prefer this function to live in BindingUtils.h, but we need to
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* call it in this header, and BindingUtils.h includes us (i.e. we'd have a
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* circular dependency between headers if it lived there).
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*/
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inline bool IsSecureContextOrObjectIsFromSecureContext(JSContext* aCx,
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JSObject* aObj) {
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MOZ_ASSERT(!js::IsWrapper(aObj));
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return JS::GetIsSecureContext(js::GetContextRealm(aCx)) ||
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JS::GetIsSecureContext(js::GetNonCCWObjectRealm(aObj));
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}
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typedef bool (*ResolveOwnProperty)(
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JSContext* cx, JS::Handle<JSObject*> wrapper, JS::Handle<JSObject*> obj,
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JS::Handle<jsid> id, JS::MutableHandle<JS::PropertyDescriptor> desc);
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typedef bool (*EnumerateOwnProperties)(JSContext* cx,
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JS::Handle<JSObject*> wrapper,
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JS::Handle<JSObject*> obj,
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JS::MutableHandleVector<jsid> props);
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typedef bool (*DeleteNamedProperty)(JSContext* cx,
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JS::Handle<JSObject*> wrapper,
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JS::Handle<JSObject*> obj,
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JS::Handle<jsid> id,
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JS::ObjectOpResult& opresult);
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// Returns true if the given global is of a type whose bit is set in
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// aNonExposedGlobals.
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bool IsNonExposedGlobal(JSContext* aCx, JSObject* aGlobal,
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uint32_t aNonExposedGlobals);
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struct ConstantSpec {
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const char* name;
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JS::Value value;
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};
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typedef bool (*PropertyEnabled)(JSContext* cx, JSObject* global);
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namespace GlobalNames {
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// The names of our possible globals. These are the names of the actual
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// interfaces, not of the global names used to refer to them in IDL [Exposed]
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// annotations.
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static const uint32_t Window = 1u << 0;
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static const uint32_t BackstagePass = 1u << 1;
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static const uint32_t DedicatedWorkerGlobalScope = 1u << 2;
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static const uint32_t SharedWorkerGlobalScope = 1u << 3;
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static const uint32_t ServiceWorkerGlobalScope = 1u << 4;
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static const uint32_t WorkerDebuggerGlobalScope = 1u << 5;
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static const uint32_t WorkletGlobalScope = 1u << 6;
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static const uint32_t AudioWorkletGlobalScope = 1u << 7;
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} // namespace GlobalNames
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struct PrefableDisablers {
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inline bool isEnabled(JSContext* cx, JS::Handle<JSObject*> obj) const {
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if (nonExposedGlobals &&
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IsNonExposedGlobal(cx, JS::GetNonCCWObjectGlobal(obj),
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nonExposedGlobals)) {
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return false;
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}
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if (prefIndex != WebIDLPrefIndex::NoPref &&
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!sWebIDLPrefs[uint16_t(prefIndex)]()) {
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return false;
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}
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if (secureContext && !IsSecureContextOrObjectIsFromSecureContext(cx, obj)) {
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return false;
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}
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if (enabledFunc && !enabledFunc(cx, JS::GetNonCCWObjectGlobal(obj))) {
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return false;
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}
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return true;
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}
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// Index into the array of StaticPrefs
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const WebIDLPrefIndex prefIndex;
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// A boolean indicating whether a Secure Context is required.
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const bool secureContext;
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// Bitmask of global names that we should not be exposed in.
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const uint16_t nonExposedGlobals;
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// A function pointer to a function that can say the property is disabled
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// even if "enabled" is set to true. If the pointer is null the value of
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// "enabled" is used as-is.
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const PropertyEnabled enabledFunc;
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};
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template <typename T>
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struct Prefable {
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inline bool isEnabled(JSContext* cx, JS::Handle<JSObject*> obj) const {
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MOZ_ASSERT(!js::IsWrapper(obj));
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if (MOZ_LIKELY(!disablers)) {
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return true;
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}
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return disablers->isEnabled(cx, obj);
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}
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// Things that can disable this set of specs. |nullptr| means "cannot be
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// disabled".
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const PrefableDisablers* const disablers;
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// Array of specs, terminated in whatever way is customary for T.
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// Null to indicate a end-of-array for Prefable, when such an
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// indicator is needed.
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const T* const specs;
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};
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enum PropertyType {
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eStaticMethod,
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eStaticAttribute,
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eMethod,
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eAttribute,
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eUnforgeableMethod,
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eUnforgeableAttribute,
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eConstant,
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ePropertyTypeCount
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};
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#define NUM_BITS_PROPERTY_INFO_TYPE 3
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#define NUM_BITS_PROPERTY_INFO_PREF_INDEX 13
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#define NUM_BITS_PROPERTY_INFO_SPEC_INDEX 16
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struct PropertyInfo {
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private:
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// MSVC generates static initializers if we store a jsid here, even if
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// PropertyInfo has a constexpr constructor. See bug 1460341 and bug 1464036.
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uintptr_t mIdBits;
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public:
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// One of PropertyType, will be used for accessing the corresponding Duo in
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// NativePropertiesN.duos[].
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uint32_t type : NUM_BITS_PROPERTY_INFO_TYPE;
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// The index to the corresponding Preable in Duo.mPrefables[].
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uint32_t prefIndex : NUM_BITS_PROPERTY_INFO_PREF_INDEX;
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// The index to the corresponding spec in Duo.mPrefables[prefIndex].specs[].
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uint32_t specIndex : NUM_BITS_PROPERTY_INFO_SPEC_INDEX;
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void SetId(jsid aId) {
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static_assert(sizeof(jsid) == sizeof(mIdBits),
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"jsid should fit in mIdBits");
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mIdBits = JSID_BITS(aId);
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}
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MOZ_ALWAYS_INLINE jsid Id() const { return jsid::fromRawBits(mIdBits); }
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};
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static_assert(
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ePropertyTypeCount <= 1ull << NUM_BITS_PROPERTY_INFO_TYPE,
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"We have property type count that is > (1 << NUM_BITS_PROPERTY_INFO_TYPE)");
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// Conceptually, NativeProperties has seven (Prefable<T>*, PropertyInfo*) duos
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// (where T is one of JSFunctionSpec, JSPropertySpec, or ConstantSpec), one for
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// each of: static methods and attributes, methods and attributes, unforgeable
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// methods and attributes, and constants.
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//
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// That's 14 pointers, but in most instances most of the duos are all null, and
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// there are many instances. To save space we use a variable-length type,
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// NativePropertiesN<N>, to hold the data and getters to access it. It has N
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// actual duos (stored in duos[]), plus four bits for each of the 7 possible
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// duos: 1 bit that states if that duo is present, and 3 that state that duo's
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// offset (if present) in duos[].
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//
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// All duo accesses should be done via the getters, which contain assertions
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// that check we don't overrun the end of the struct. (The duo data members are
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// public only so they can be statically initialized.) These assertions should
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// never fail so long as (a) accesses to the variable-length part are guarded by
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// appropriate Has*() calls, and (b) all instances are well-formed, i.e. the
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// value of N matches the number of mHas* members that are true.
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//
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// We store all the property ids a NativePropertiesN owns in a single array of
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// PropertyInfo structs. Each struct contains an id and the information needed
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// to find the corresponding Prefable for the enabled check, as well as the
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// information needed to find the correct property descriptor in the
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// Prefable. We also store an array of indices into the PropertyInfo array,
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// sorted by bits of the corresponding jsid. Given a jsid, this allows us to
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// binary search for the index of the corresponding PropertyInfo, if any.
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//
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// Finally, we define a typedef of NativePropertiesN<7>, NativeProperties, which
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// we use as a "base" type used to refer to all instances of NativePropertiesN.
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// (7 is used because that's the maximum valid parameter, though any other
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// value 1..6 could also be used.) This is reasonable because of the
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// aforementioned assertions in the getters. Upcast() is used to convert
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// specific instances to this "base" type.
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//
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template <int N>
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struct NativePropertiesN {
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// Duo structs are stored in the duos[] array, and each element in the array
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// could require a different T. Therefore, we can't use the correct type for
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// mPrefables. Instead we use void* and cast to the correct type in the
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// getters.
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struct Duo {
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const /*Prefable<const T>*/ void* const mPrefables;
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PropertyInfo* const mPropertyInfos;
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};
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constexpr const NativePropertiesN<7>* Upcast() const {
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return reinterpret_cast<const NativePropertiesN<7>*>(this);
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}
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const PropertyInfo* PropertyInfos() const { return duos[0].mPropertyInfos; }
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#define DO(SpecT, FieldName) \
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public: \
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/* The bitfields indicating the duo's presence and (if present) offset. */ \
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const uint32_t mHas##FieldName##s : 1; \
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const uint32_t m##FieldName##sOffset : 3; \
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\
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private: \
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const Duo* FieldName##sDuo() const { \
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MOZ_ASSERT(Has##FieldName##s()); \
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return &duos[m##FieldName##sOffset]; \
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} \
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\
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public: \
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bool Has##FieldName##s() const { return mHas##FieldName##s; } \
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const Prefable<const SpecT>* FieldName##s() const { \
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return static_cast<const Prefable<const SpecT>*>( \
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FieldName##sDuo()->mPrefables); \
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} \
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PropertyInfo* FieldName##PropertyInfos() const { \
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return FieldName##sDuo()->mPropertyInfos; \
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}
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DO(JSFunctionSpec, StaticMethod)
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DO(JSPropertySpec, StaticAttribute)
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DO(JSFunctionSpec, Method)
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DO(JSPropertySpec, Attribute)
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DO(JSFunctionSpec, UnforgeableMethod)
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DO(JSPropertySpec, UnforgeableAttribute)
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DO(ConstantSpec, Constant)
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#undef DO
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// The index to the iterator method in MethodPropertyInfos() array.
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const int16_t iteratorAliasMethodIndex;
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// The number of PropertyInfo structs that the duos manage. This is the total
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// count across all duos.
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const uint16_t propertyInfoCount;
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// The sorted indices array from sorting property ids, which will be used when
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// we binary search for a property.
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uint16_t* sortedPropertyIndices;
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const Duo duos[N];
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};
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// Ensure the struct has the expected size. The 8 is for the bitfields plus
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// iteratorAliasMethodIndex and idsLength; the rest is for the idsSortedIndex,
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// and duos[].
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static_assert(sizeof(NativePropertiesN<1>) == 8 + 3 * sizeof(void*), "1 size");
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static_assert(sizeof(NativePropertiesN<2>) == 8 + 5 * sizeof(void*), "2 size");
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static_assert(sizeof(NativePropertiesN<3>) == 8 + 7 * sizeof(void*), "3 size");
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static_assert(sizeof(NativePropertiesN<4>) == 8 + 9 * sizeof(void*), "4 size");
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static_assert(sizeof(NativePropertiesN<5>) == 8 + 11 * sizeof(void*), "5 size");
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static_assert(sizeof(NativePropertiesN<6>) == 8 + 13 * sizeof(void*), "6 size");
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static_assert(sizeof(NativePropertiesN<7>) == 8 + 15 * sizeof(void*), "7 size");
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// The "base" type.
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typedef NativePropertiesN<7> NativeProperties;
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struct NativePropertiesHolder {
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const NativeProperties* regular;
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const NativeProperties* chromeOnly;
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};
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// Helper structure for Xrays for DOM binding objects. The same instance is used
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// for instances, interface objects and interface prototype objects of a
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// specific interface.
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struct NativePropertyHooks {
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// The hook to call for resolving indexed or named properties. May be null if
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// there can't be any.
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ResolveOwnProperty mResolveOwnProperty;
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// The hook to call for enumerating indexed or named properties. May be null
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// if there can't be any.
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EnumerateOwnProperties mEnumerateOwnProperties;
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// The hook to call to delete a named property. May be null if there are no
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// named properties or no named property deleter. On success (true return)
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// the "found" argument will be set to true if there was in fact such a named
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// property and false otherwise. If it's set to false, the caller is expected
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// to proceed with whatever deletion behavior it would have if there were no
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// named properties involved at all (i.e. if the hook were null). If it's set
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// to true, it will indicate via opresult whether the delete actually
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// succeeded.
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DeleteNamedProperty mDeleteNamedProperty;
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// The property arrays for this interface.
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NativePropertiesHolder mNativeProperties;
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// This will be set to the ID of the interface prototype object for the
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// interface, if it has one. If it doesn't have one it will be set to
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// prototypes::id::_ID_Count.
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prototypes::ID mPrototypeID;
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// This will be set to the ID of the interface object for the interface, if it
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// has one. If it doesn't have one it will be set to
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// constructors::id::_ID_Count.
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constructors::ID mConstructorID;
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// The NativePropertyHooks instance for the parent interface (for
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// ShimInterfaceInfo).
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const NativePropertyHooks* mProtoHooks;
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// The JSClass to use for expandos on our Xrays. Can be null, in which case
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// Xrays will use a default class of their choice.
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const JSClass* mXrayExpandoClass;
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};
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enum DOMObjectType : uint8_t {
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eInstance,
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eGlobalInstance,
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eInterface,
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eInterfacePrototype,
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eGlobalInterfacePrototype,
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eNamedPropertiesObject
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};
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inline bool IsInstance(DOMObjectType type) {
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return type == eInstance || type == eGlobalInstance;
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}
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inline bool IsInterfacePrototype(DOMObjectType type) {
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return type == eInterfacePrototype || type == eGlobalInterfacePrototype;
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}
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typedef JSObject* (*AssociatedGlobalGetter)(JSContext* aCx,
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JS::Handle<JSObject*> aObj);
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typedef JSObject* (*ProtoGetter)(JSContext* aCx);
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/**
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* Returns a handle to the relevant WebIDL prototype object for the current
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* compartment global (which may be a handle to null on out of memory). Once
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* allocated, the prototype object is guaranteed to exist as long as the global
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* does, since the global traces its array of WebIDL prototypes and
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* constructors.
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*/
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typedef JS::Handle<JSObject*> (*ProtoHandleGetter)(JSContext* aCx);
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/**
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* Serializes a WebIDL object for structured cloning. aObj may not be in the
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* compartment of aCx in cases when we were working with a cross-compartment
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* wrapper. aObj is expected to be an object of the DOMJSClass that we got the
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* serializer from.
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*/
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typedef bool (*WebIDLSerializer)(JSContext* aCx,
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JSStructuredCloneWriter* aWriter,
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JS::Handle<JSObject*> aObj);
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/**
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* Deserializes a WebIDL object from a structured clone serialization.
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*/
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typedef JSObject* (*WebIDLDeserializer)(JSContext* aCx,
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nsIGlobalObject* aGlobal,
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JSStructuredCloneReader* aReader);
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typedef nsWrapperCache* (*WrapperCacheGetter)(JS::Handle<JSObject*> aObj);
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// Special JSClass for reflected DOM objects.
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struct DOMJSClass {
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// It would be nice to just inherit from JSClass, but that precludes pure
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// compile-time initialization of the form |DOMJSClass = {...};|, since C++
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// only allows brace initialization for aggregate/POD types.
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const JSClass mBase;
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// A list of interfaces that this object implements, in order of decreasing
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// derivedness.
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const prototypes::ID mInterfaceChain[MAX_PROTOTYPE_CHAIN_LENGTH];
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// We store the DOM object in reserved slot with index DOM_OBJECT_SLOT or in
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// the proxy private if we use a proxy object.
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// Sometimes it's an nsISupports and sometimes it's not; this class tells
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// us which it is.
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const bool mDOMObjectIsISupports;
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const NativePropertyHooks* mNativeHooks;
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// A callback to find the associated global for our C++ object. Note that
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// this is used in cases when that global is _changing_, so it will not match
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// the global of the JSObject* passed in to this function!
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AssociatedGlobalGetter mGetAssociatedGlobal;
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ProtoHandleGetter mGetProto;
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// This stores the CC participant for the native, null if this class does not
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// implement cycle collection or if it inherits from nsISupports (we can get
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// the CC participant by QI'ing in that case).
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nsCycleCollectionParticipant* mParticipant;
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// The serializer for this class if the relevant object is [Serializable].
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// Null otherwise.
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WebIDLSerializer mSerializer;
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// A callback to get the wrapper cache for C++ objects that don't inherit from
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// nsISupports, or null.
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WrapperCacheGetter mWrapperCacheGetter;
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static const DOMJSClass* FromJSClass(const JSClass* base) {
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MOZ_ASSERT(base->flags & JSCLASS_IS_DOMJSCLASS);
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return reinterpret_cast<const DOMJSClass*>(base);
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}
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const JSClass* ToJSClass() const { return &mBase; }
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};
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// Special JSClass for DOM interface and interface prototype objects.
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struct DOMIfaceAndProtoJSClass {
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// It would be nice to just inherit from JSClass, but that precludes pure
|
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// compile-time initialization of the form
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// |DOMJSInterfaceAndPrototypeClass = {...};|, since C++ only allows brace
|
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// initialization for aggregate/POD types.
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const JSClass mBase;
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// Either eInterface, eInterfacePrototype, eGlobalInterfacePrototype or
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// eNamedPropertiesObject.
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DOMObjectType mType; // uint8_t
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// Boolean indicating whether this object wants a @@hasInstance property
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|
// pointing to InterfaceHasInstance defined on it. Only ever true for the
|
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// eInterface case.
|
|
bool wantsInterfaceHasInstance;
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|
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const prototypes::ID mPrototypeID; // uint16_t
|
|
const uint32_t mDepth;
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|
|
const NativePropertyHooks* mNativeHooks;
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// The value to return for Function.prototype.toString on this interface
|
|
// object.
|
|
const char* mFunToString;
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|
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ProtoGetter mGetParentProto;
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|
|
static const DOMIfaceAndProtoJSClass* FromJSClass(const JSClass* base) {
|
|
MOZ_ASSERT(base->flags & JSCLASS_IS_DOMIFACEANDPROTOJSCLASS);
|
|
return reinterpret_cast<const DOMIfaceAndProtoJSClass*>(base);
|
|
}
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|
|
const JSClass* ToJSClass() const { return &mBase; }
|
|
};
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|
|
class ProtoAndIfaceCache;
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|
|
inline bool DOMGlobalHasProtoAndIFaceCache(JSObject* global) {
|
|
MOZ_ASSERT(js::GetObjectClass(global)->flags & JSCLASS_DOM_GLOBAL);
|
|
// This can be undefined if we GC while creating the global
|
|
return !js::GetReservedSlot(global, DOM_PROTOTYPE_SLOT).isUndefined();
|
|
}
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|
|
|
inline bool HasProtoAndIfaceCache(JSObject* global) {
|
|
if (!(js::GetObjectClass(global)->flags & JSCLASS_DOM_GLOBAL)) {
|
|
return false;
|
|
}
|
|
return DOMGlobalHasProtoAndIFaceCache(global);
|
|
}
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|
|
inline ProtoAndIfaceCache* GetProtoAndIfaceCache(JSObject* global) {
|
|
MOZ_ASSERT(js::GetObjectClass(global)->flags & JSCLASS_DOM_GLOBAL);
|
|
return static_cast<ProtoAndIfaceCache*>(
|
|
js::GetReservedSlot(global, DOM_PROTOTYPE_SLOT).toPrivate());
|
|
}
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} // namespace dom
|
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} // namespace mozilla
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#endif /* mozilla_dom_DOMJSClass_h */
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