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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#ifndef vm_ProxyObject_h
#define vm_ProxyObject_h
#include "js/Proxy.h"
#include "js/shadow/Object.h" // JS::shadow::Object
#include "vm/JSObject.h"
namespace js {
/**
* This is the base class for the various kinds of proxy objects. It's never
* instantiated.
*
* Proxy objects use their shape primarily to record flags. Property
* information, &c. is all dynamically computed.
*
* There is no class_ member to force specialization of JSObject::is<T>().
* The implementation in JSObject is incorrect for proxies since it doesn't
* take account of the handler type.
*/
class ProxyObject : public JSObject {
// GetProxyDataLayout computes the address of this field.
detail::ProxyDataLayout data;
void static_asserts() {
static_assert(sizeof(ProxyObject) == sizeof(JSObject_Slots0),
"proxy object size must match GC thing size");
static_assert(offsetof(ProxyObject, data) == detail::ProxyDataOffset,
"proxy object layout must match shadow interface");
static_assert(offsetof(ProxyObject, data.reservedSlots) ==
offsetof(JS::shadow::Object, slots),
"Proxy reservedSlots must overlay native object slots field");
}
public:
static ProxyObject* New(JSContext* cx, const BaseProxyHandler* handler,
HandleValue priv, TaggedProto proto_,
const JSClass* clasp);
void init(const BaseProxyHandler* handler, HandleValue priv, JSContext* cx);
// Proxies usually store their ProxyValueArray inline in the object.
// There's one unfortunate exception: when a proxy is swapped with another
// object, and the sizes don't match, we malloc the ProxyValueArray.
void* inlineDataStart() const {
return (void*)(uintptr_t(this) + sizeof(ProxyObject));
}
bool usingInlineValueArray() const {
return data.values() == inlineDataStart();
}
void setInlineValueArray() {
data.reservedSlots =
&reinterpret_cast<detail::ProxyValueArray*>(inlineDataStart())
->reservedSlots;
}
// For use from JSObject::swap.
[[nodiscard]] bool prepareForSwap(JSContext* cx,
MutableHandleValueVector valuesOut);
[[nodiscard]] bool fixupAfterSwap(JSContext* cx, HandleValueVector values);
const Value& private_() const { return GetProxyPrivate(this); }
const Value& expando() const { return GetProxyExpando(this); }
void setExpando(JSObject* expando);
void setCrossCompartmentPrivate(const Value& priv);
void setSameCompartmentPrivate(const Value& priv);
JSObject* target() const { return private_().toObjectOrNull(); }
const BaseProxyHandler* handler() const { return GetProxyHandler(this); }
void setHandler(const BaseProxyHandler* handler) {
SetProxyHandler(this, handler);
}
static size_t offsetOfReservedSlots() {
return offsetof(ProxyObject, data.reservedSlots);
}
static size_t offsetOfHandler() {
return offsetof(ProxyObject, data.handler);
}
size_t numReservedSlots() const { return JSCLASS_RESERVED_SLOTS(getClass()); }
const Value& reservedSlot(size_t n) const {
return GetProxyReservedSlot(this, n);
}
void setReservedSlot(size_t n, const Value& extra) {
SetProxyReservedSlot(this, n, extra);
}
gc::AllocKind allocKindForTenure() const;
private:
GCPtr<Value>* reservedSlotPtr(size_t n) {
return reinterpret_cast<GCPtr<Value>*>(
&detail::GetProxyDataLayout(this)->reservedSlots->slots[n]);
}
GCPtr<Value>* slotOfPrivate() {
return reinterpret_cast<GCPtr<Value>*>(
&detail::GetProxyDataLayout(this)->values()->privateSlot);
}
GCPtr<Value>* slotOfExpando() {
return reinterpret_cast<GCPtr<Value>*>(
&detail::GetProxyDataLayout(this)->values()->expandoSlot);
}
void setPrivate(const Value& priv);
static bool isValidProxyClass(const JSClass* clasp) {
// Since we can take classes from the outside, make sure that they
// are "sane". They have to quack enough like proxies for us to belive
// they should be treated as such.
// Proxy classes are not allowed to have call or construct hooks directly.
// Their callability is instead decided by handler()->isCallable().
return clasp->isProxyObject() && clasp->isTrace(ProxyObject::trace) &&
!clasp->getCall() && !clasp->getConstruct();
}
public:
static unsigned grayLinkReservedSlot(JSObject* obj);
void renew(const BaseProxyHandler* handler, const Value& priv);
static void trace(JSTracer* trc, JSObject* obj);
static void traceEdgeToTarget(JSTracer* trc, ProxyObject* obj);
void nurseryProxyTenured(ProxyObject* old);
void nuke();
};
bool IsDerivedProxyObject(const JSObject* obj,
const js::BaseProxyHandler* handler);
} // namespace js
template <>
inline bool JSObject::is<js::ProxyObject>() const {
// Note: this method is implemented in terms of the IsProxy() friend API
// functions to ensure the implementations are tied together.
// Note 2: this specialization isn't used for subclasses of ProxyObject
// which must supply their own implementation.
return js::IsProxy(this);
}
inline bool js::IsDerivedProxyObject(const JSObject* obj,
const js::BaseProxyHandler* handler) {
return obj->is<js::ProxyObject>() &&
obj->as<js::ProxyObject>().handler() == handler;
}
#endif /* vm_ProxyObject_h */
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