gecko/js/xpconnect/wrappers/XrayWrapper.cpp

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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* vim: set ts=4 sw=4 et tw=99 ft=cpp:
*
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* 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/. */
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#include "XrayWrapper.h"
#include "AccessCheck.h"
#include "FilteringWrapper.h"
#include "WaiveXrayWrapper.h"
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#include "WrapperFactory.h"
#include "nsINode.h"
#include "nsIContent.h"
#include "nsIDocument.h"
#include "nsContentUtils.h"
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#include "XPCWrapper.h"
#include "xpcprivate.h"
#include "jsapi.h"
#include "nsJSUtils.h"
Bug 742217. Reduce the use of nested namespaces in our binding code. r=peterv,bent In the new setup, all per-interface DOM binding files are exported into mozilla/dom. General files not specific to an interface are also exported into mozilla/dom. In terms of namespaces, most things now live in mozilla::dom. Each interface Foo that has generated code has a mozilla::dom::FooBinding namespace for said generated code (and possibly a mozilla::bindings::FooBinding_workers if there's separate codegen for workers). IDL enums are a bit weird: since the name of the enum and the names of its entries all end up in the same namespace, we still generate a C++ namespace with the name of the IDL enum type with "Values" appended to it, with a ::valuelist inside for the actual C++ enum. We then typedef EnumFooValues::valuelist to EnumFoo. That makes it a bit more difficult to refer to the values, but means that values from different enums don't collide with each other. The enums with the proto and constructor IDs in them now live under the mozilla::dom::prototypes and mozilla::dom::constructors namespaces respectively. Again, this lets us deal sanely with the whole "enum value names are flattened into the namespace the enum is in" deal. The main benefit of this setup (and the reason "Binding" got appended to the per-interface namespaces) is that this way "using mozilla::dom" should Just Work for consumers and still allow C++ code to sanely use the IDL interface names for concrete classes, which is fairly desirable. --HG-- rename : dom/bindings/Utils.cpp => dom/bindings/BindingUtils.cpp rename : dom/bindings/Utils.h => dom/bindings/BindingUtils.h
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#include "mozilla/dom/BindingUtils.h"
#include "nsGlobalWindow.h"
Bug 742217. Reduce the use of nested namespaces in our binding code. r=peterv,bent In the new setup, all per-interface DOM binding files are exported into mozilla/dom. General files not specific to an interface are also exported into mozilla/dom. In terms of namespaces, most things now live in mozilla::dom. Each interface Foo that has generated code has a mozilla::dom::FooBinding namespace for said generated code (and possibly a mozilla::bindings::FooBinding_workers if there's separate codegen for workers). IDL enums are a bit weird: since the name of the enum and the names of its entries all end up in the same namespace, we still generate a C++ namespace with the name of the IDL enum type with "Values" appended to it, with a ::valuelist inside for the actual C++ enum. We then typedef EnumFooValues::valuelist to EnumFoo. That makes it a bit more difficult to refer to the values, but means that values from different enums don't collide with each other. The enums with the proto and constructor IDs in them now live under the mozilla::dom::prototypes and mozilla::dom::constructors namespaces respectively. Again, this lets us deal sanely with the whole "enum value names are flattened into the namespace the enum is in" deal. The main benefit of this setup (and the reason "Binding" got appended to the per-interface namespaces) is that this way "using mozilla::dom" should Just Work for consumers and still allow C++ code to sanely use the IDL interface names for concrete classes, which is fairly desirable. --HG-- rename : dom/bindings/Utils.cpp => dom/bindings/BindingUtils.cpp rename : dom/bindings/Utils.h => dom/bindings/BindingUtils.h
2012-05-02 21:35:38 -07:00
using namespace mozilla::dom;
using namespace JS;
using namespace mozilla;
using js::PropertyDescriptor;
using js::Wrapper;
using js::IsCrossCompartmentWrapper;
using js::UncheckedUnwrap;
using js::CheckedUnwrap;
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namespace xpc {
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static const uint32_t JSSLOT_RESOLVING = 0;
static XPCWrappedNative *GetWrappedNative(JSObject *obj);
namespace XrayUtils {
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JSClass HolderClass = {
"NativePropertyHolder",
JSCLASS_HAS_RESERVED_SLOTS(2),
JS_PropertyStub, JS_DeletePropertyStub, holder_get, holder_set,
JS_EnumerateStub, JS_ResolveStub, JS_ConvertStub
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};
}
using namespace XrayUtils;
XrayType
GetXrayType(JSObject *obj)
{
obj = js::UncheckedUnwrap(obj, /* stopAtOuter = */ false);
if (mozilla::dom::UseDOMXray(obj))
return XrayForDOMObject;
js::Class* clasp = js::GetObjectClass(obj);
if (IS_WRAPPER_CLASS(clasp) || clasp->ext.innerObject) {
NS_ASSERTION(clasp->ext.innerObject || IS_WN_WRAPPER_OBJECT(obj),
"We forgot to Morph a slim wrapper!");
return XrayForWrappedNative;
}
return NotXray;
}
ResolvingId::ResolvingId(JSContext *cx, HandleObject wrapper, HandleId id)
: mId(id),
mHolder(cx, getHolderObject(wrapper)),
mPrev(getResolvingId(mHolder)),
mXrayShadowing(false)
{
js::SetReservedSlot(mHolder, JSSLOT_RESOLVING, js::PrivateValue(this));
}
ResolvingId::~ResolvingId()
{
MOZ_ASSERT(getResolvingId(mHolder) == this, "unbalanced ResolvingIds");
js::SetReservedSlot(mHolder, JSSLOT_RESOLVING, js::PrivateValue(mPrev));
}
bool
ResolvingId::isXrayShadowing(jsid id)
{
if (!mXrayShadowing)
return false;
return mId == id;
}
bool
ResolvingId::isResolving(jsid id)
{
for (ResolvingId *cur = this; cur; cur = cur->mPrev) {
if (cur->mId == id)
return true;
}
return false;
}
ResolvingId *
ResolvingId::getResolvingId(JSObject *holder)
{
MOZ_ASSERT(strcmp(JS_GetClass(holder)->name, "NativePropertyHolder") == 0);
return (ResolvingId *)js::GetReservedSlot(holder, JSSLOT_RESOLVING).toPrivate();
}
JSObject *
ResolvingId::getHolderObject(JSObject *wrapper)
{
return &js::GetProxyExtra(wrapper, 0).toObject();
}
ResolvingId *
ResolvingId::getResolvingIdFromWrapper(JSObject *wrapper)
{
return getResolvingId(getHolderObject(wrapper));
}
class MOZ_STACK_CLASS ResolvingIdDummy
{
public:
ResolvingIdDummy(JSContext *cx, HandleObject wrapper, HandleId id)
{
}
};
class XrayTraits
{
public:
static JSObject* getTargetObject(JSObject *wrapper) {
return js::UncheckedUnwrap(wrapper, /* stopAtOuter = */ false);
}
virtual bool resolveNativeProperty(JSContext *cx, HandleObject wrapper,
HandleObject holder, HandleId id,
JSPropertyDescriptor *desc, unsigned flags) = 0;
// NB: resolveOwnProperty may decide whether or not to cache what it finds
// on the holder. If the result is not cached, the lookup will happen afresh
// for each access, which is the right thing for things like dynamic NodeList
// properties.
virtual bool resolveOwnProperty(JSContext *cx, Wrapper &jsWrapper,
HandleObject wrapper, HandleObject holder,
HandleId id, JSPropertyDescriptor *desc, unsigned flags);
static bool call(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args, js::Wrapper& baseInstance)
{
MOZ_NOT_REACHED("Call trap currently implemented only for XPCWNs");
}
static bool construct(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args, js::Wrapper& baseInstance)
{
MOZ_NOT_REACHED("Call trap currently implemented only for XPCWNs");
}
virtual void preserveWrapper(JSObject *target) = 0;
JSObject* getExpandoObject(JSContext *cx, HandleObject target,
HandleObject consumer);
JSObject* ensureExpandoObject(JSContext *cx, HandleObject wrapper,
HandleObject target);
JSObject* getHolder(JSObject *wrapper);
JSObject* ensureHolder(JSContext *cx, HandleObject wrapper);
virtual JSObject* createHolder(JSContext *cx, JSObject *wrapper) = 0;
virtual JSObject* getExpandoChain(JSObject *obj) = 0;
virtual void setExpandoChain(JSObject *obj, JSObject *chain) = 0;
bool cloneExpandoChain(JSContext *cx, HandleObject dst, HandleObject src);
private:
bool expandoObjectMatchesConsumer(JSContext *cx, HandleObject expandoObject,
nsIPrincipal *consumerOrigin,
HandleObject exclusiveGlobal);
JSObject* getExpandoObjectInternal(JSContext *cx, HandleObject target,
nsIPrincipal *origin,
JSObject *exclusiveGlobal);
JSObject* attachExpandoObject(JSContext *cx, HandleObject target,
nsIPrincipal *origin,
HandleObject exclusiveGlobal);
};
class XPCWrappedNativeXrayTraits : public XrayTraits
{
public:
static const XrayType Type = XrayForWrappedNative;
virtual bool resolveNativeProperty(JSContext *cx, HandleObject wrapper,
HandleObject holder, HandleId id,
JSPropertyDescriptor *desc, unsigned flags);
virtual bool resolveOwnProperty(JSContext *cx, Wrapper &jsWrapper, HandleObject wrapper,
HandleObject holder, HandleId id,
JSPropertyDescriptor *desc, unsigned flags);
static bool defineProperty(JSContext *cx, HandleObject wrapper, HandleId id,
PropertyDescriptor *desc,
Handle<PropertyDescriptor> existingDesc, bool *defined);
static bool enumerateNames(JSContext *cx, HandleObject wrapper, unsigned flags,
AutoIdVector &props);
static bool call(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args, js::Wrapper& baseInstance);
static bool construct(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args, js::Wrapper& baseInstance);
static bool isResolving(JSContext *cx, JSObject *holder, jsid id);
static bool resolveDOMCollectionProperty(JSContext *cx, HandleObject wrapper,
HandleObject holder, HandleId id,
PropertyDescriptor *desc, unsigned flags);
static XPCWrappedNative* getWN(JSObject *wrapper) {
return GetWrappedNative(getTargetObject(wrapper));
}
virtual void preserveWrapper(JSObject *target);
typedef ResolvingId ResolvingIdImpl;
virtual JSObject* createHolder(JSContext *cx, JSObject *wrapper);
virtual JSObject* getExpandoChain(JSObject *obj) {
return GetWNExpandoChain(obj);
}
virtual void setExpandoChain(JSObject *obj, JSObject *chain) {
SetWNExpandoChain(obj, chain);
}
static XPCWrappedNativeXrayTraits singleton;
};
class DOMXrayTraits : public XrayTraits
{
public:
static const XrayType Type = XrayForDOMObject;
virtual bool resolveNativeProperty(JSContext *cx, HandleObject wrapper,
HandleObject holder, HandleId id,
JSPropertyDescriptor *desc, unsigned flags);
virtual bool resolveOwnProperty(JSContext *cx, Wrapper &jsWrapper, HandleObject wrapper,
HandleObject holder, HandleId id,
JSPropertyDescriptor *desc, unsigned flags);
static bool defineProperty(JSContext *cx, HandleObject wrapper, HandleId id,
PropertyDescriptor *desc,
Handle<PropertyDescriptor> existingDesc, bool *defined);
static bool enumerateNames(JSContext *cx, HandleObject wrapper, unsigned flags,
AutoIdVector &props);
static bool call(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args, js::Wrapper& baseInstance);
static bool construct(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args, js::Wrapper& baseInstance);
static bool isResolving(JSContext *cx, JSObject *holder, jsid id)
{
return false;
}
typedef ResolvingIdDummy ResolvingIdImpl;
virtual void preserveWrapper(JSObject *target);
virtual JSObject* createHolder(JSContext *cx, JSObject *wrapper);
virtual JSObject* getExpandoChain(JSObject *obj) {
return mozilla::dom::GetXrayExpandoChain(obj);
}
virtual void setExpandoChain(JSObject *obj, JSObject *chain) {
mozilla::dom::SetXrayExpandoChain(obj, chain);
}
static DOMXrayTraits singleton;
};
XPCWrappedNativeXrayTraits XPCWrappedNativeXrayTraits::singleton;
DOMXrayTraits DOMXrayTraits::singleton;
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XrayTraits*
GetXrayTraits(JSObject *obj)
{
switch (GetXrayType(obj)) {
case XrayForDOMObject:
return &DOMXrayTraits::singleton;
case XrayForWrappedNative:
return &XPCWrappedNativeXrayTraits::singleton;
default:
return nullptr;
}
}
/*
* Xray expando handling.
*
* We hang expandos for Xray wrappers off a reserved slot on the target object
* so that same-origin compartments can share expandos for a given object. We
* have a linked list of expando objects, one per origin. The properties on these
* objects are generally wrappers pointing back to the compartment that applied
* them.
*
* The expando objects should _never_ be exposed to script. The fact that they
* live in the target compartment is a detail of the implementation, and does
* not imply that code in the target compartment should be allowed to inspect
* them. They are private to the origin that placed them.
*/
enum ExpandoSlots {
JSSLOT_EXPANDO_NEXT = 0,
JSSLOT_EXPANDO_ORIGIN,
JSSLOT_EXPANDO_EXCLUSIVE_GLOBAL,
JSSLOT_EXPANDO_COUNT
};
static nsIPrincipal*
ObjectPrincipal(JSObject *obj)
{
return GetCompartmentPrincipal(js::GetObjectCompartment(obj));
}
static nsIPrincipal*
GetExpandoObjectPrincipal(JSObject *expandoObject)
{
Value v = JS_GetReservedSlot(expandoObject, JSSLOT_EXPANDO_ORIGIN);
return static_cast<nsIPrincipal*>(v.toPrivate());
}
static void
ExpandoObjectFinalize(JSFreeOp *fop, JSObject *obj)
{
// Release the principal.
nsIPrincipal *principal = GetExpandoObjectPrincipal(obj);
NS_RELEASE(principal);
}
JSClass ExpandoObjectClass = {
"XrayExpandoObject",
JSCLASS_HAS_RESERVED_SLOTS(JSSLOT_EXPANDO_COUNT),
JS_PropertyStub, JS_DeletePropertyStub, JS_PropertyStub, JS_StrictPropertyStub,
JS_EnumerateStub, JS_ResolveStub, JS_ConvertStub, ExpandoObjectFinalize
};
bool
XrayTraits::expandoObjectMatchesConsumer(JSContext *cx,
HandleObject expandoObject,
nsIPrincipal *consumerOrigin,
HandleObject exclusiveGlobal)
{
MOZ_ASSERT(js::IsObjectInContextCompartment(expandoObject, cx));
// First, compare the principals.
nsIPrincipal *o = GetExpandoObjectPrincipal(expandoObject);
bool equal;
// Note that it's very important here to ignore document.domain. We
// pull the principal for the expando object off of the first consumer
// for a given origin, and freely share the expandos amongst multiple
// same-origin consumers afterwards. However, this means that we have
// no way to know whether _all_ consumers have opted in to collaboration
// by explicitly setting document.domain. So we just mandate that expando
// sharing is unaffected by it.
nsresult rv = consumerOrigin->EqualsIgnoringDomain(o, &equal);
if (NS_FAILED(rv) || !equal)
return false;
// Sandboxes want exclusive expando objects.
JSObject *owner = JS_GetReservedSlot(expandoObject,
JSSLOT_EXPANDO_EXCLUSIVE_GLOBAL)
.toObjectOrNull();
if (!owner && !exclusiveGlobal)
return true;
// The exclusive global should always be wrapped in the target's compartment.
MOZ_ASSERT(!exclusiveGlobal || js::IsObjectInContextCompartment(exclusiveGlobal, cx));
MOZ_ASSERT(!owner || js::IsObjectInContextCompartment(owner, cx));
return owner == exclusiveGlobal;
}
JSObject *
XrayTraits::getExpandoObjectInternal(JSContext *cx, HandleObject target,
nsIPrincipal *origin,
JSObject *exclusiveGlobalArg)
{
// The expando object lives in the compartment of the target, so all our
// work needs to happen there.
RootedObject exclusiveGlobal(cx, exclusiveGlobalArg);
JSAutoCompartment ac(cx, target);
if (!JS_WrapObject(cx, exclusiveGlobal.address()))
return NULL;
// Iterate through the chain, looking for a same-origin object.
RootedObject head(cx, getExpandoChain(target));
while (head) {
if (expandoObjectMatchesConsumer(cx, head, origin, exclusiveGlobal))
return head;
head = JS_GetReservedSlot(head, JSSLOT_EXPANDO_NEXT).toObjectOrNull();
}
// Not found.
return nullptr;
}
JSObject *
XrayTraits::getExpandoObject(JSContext *cx, HandleObject target, HandleObject consumer)
{
JSObject *consumerGlobal = js::GetGlobalForObjectCrossCompartment(consumer);
bool isSandbox = !strcmp(js::GetObjectJSClass(consumerGlobal)->name, "Sandbox");
return getExpandoObjectInternal(cx, target, ObjectPrincipal(consumer),
isSandbox ? consumerGlobal : nullptr);
}
JSObject *
XrayTraits::attachExpandoObject(JSContext *cx, HandleObject target,
nsIPrincipal *origin, HandleObject exclusiveGlobal)
{
// Make sure the compartments are sane.
MOZ_ASSERT(js::IsObjectInContextCompartment(target, cx));
MOZ_ASSERT(!exclusiveGlobal || js::IsObjectInContextCompartment(exclusiveGlobal, cx));
// No duplicates allowed.
MOZ_ASSERT(!getExpandoObjectInternal(cx, target, origin, exclusiveGlobal));
// Create the expando object. We parent it directly to the target object.
RootedObject expandoObject(cx, JS_NewObjectWithGivenProto(cx, &ExpandoObjectClass,
nullptr, target));
if (!expandoObject)
return nullptr;
// AddRef and store the principal.
NS_ADDREF(origin);
JS_SetReservedSlot(expandoObject, JSSLOT_EXPANDO_ORIGIN, PRIVATE_TO_JSVAL(origin));
// Note the exclusive global, if any.
JS_SetReservedSlot(expandoObject, JSSLOT_EXPANDO_EXCLUSIVE_GLOBAL,
OBJECT_TO_JSVAL(exclusiveGlobal));
// If this is our first expando object, take the opportunity to preserve
// the wrapper. This keeps our expandos alive even if the Xray wrapper gets
// collected.
RootedObject chain(cx, getExpandoChain(target));
if (!chain)
preserveWrapper(target);
// Insert it at the front of the chain.
JS_SetReservedSlot(expandoObject, JSSLOT_EXPANDO_NEXT, OBJECT_TO_JSVAL(chain));
setExpandoChain(target, expandoObject);
return expandoObject;
}
JSObject *
XrayTraits::ensureExpandoObject(JSContext *cx, HandleObject wrapper,
HandleObject target)
{
// Expando objects live in the target compartment.
JSAutoCompartment ac(cx, target);
JSObject *expandoObject = getExpandoObject(cx, target, wrapper);
if (!expandoObject) {
// If the object is a sandbox, we don't want it to share expandos with
// anyone else, so we tag it with the sandbox global.
//
// NB: We first need to check the class, _then_ wrap for the target's
// compartment.
RootedObject consumerGlobal(cx, js::GetGlobalForObjectCrossCompartment(wrapper));
bool isSandbox = !strcmp(js::GetObjectJSClass(consumerGlobal)->name, "Sandbox");
if (!JS_WrapObject(cx, consumerGlobal.address()))
return NULL;
expandoObject = attachExpandoObject(cx, target, ObjectPrincipal(wrapper),
isSandbox ? (HandleObject)consumerGlobal : NullPtr());
}
return expandoObject;
}
bool
XrayTraits::cloneExpandoChain(JSContext *cx, HandleObject dst, HandleObject src)
{
MOZ_ASSERT(js::IsObjectInContextCompartment(dst, cx));
MOZ_ASSERT(getExpandoChain(dst) == nullptr);
RootedObject oldHead(cx, getExpandoChain(src));
while (oldHead) {
RootedObject exclusive(cx, JS_GetReservedSlot(oldHead,
JSSLOT_EXPANDO_EXCLUSIVE_GLOBAL)
.toObjectOrNull());
if (!JS_WrapObject(cx, exclusive.address()))
return false;
JSObject *newHead = attachExpandoObject(cx, dst, GetExpandoObjectPrincipal(oldHead),
exclusive);
if (!JS_CopyPropertiesFrom(cx, newHead, oldHead))
return false;
oldHead = JS_GetReservedSlot(oldHead, JSSLOT_EXPANDO_NEXT).toObjectOrNull();
}
return true;
}
namespace XrayUtils {
bool CloneExpandoChain(JSContext *cx, JSObject *dstArg, JSObject *srcArg)
{
RootedObject dst(cx, dstArg);
RootedObject src(cx, srcArg);
return GetXrayTraits(src)->cloneExpandoChain(cx, dst, src);
}
}
static JSObject *
GetHolder(JSObject *obj)
{
return &js::GetProxyExtra(obj, 0).toObject();
}
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static XPCWrappedNative *
GetWrappedNative(JSObject *obj)
{
MOZ_ASSERT(IS_WN_WRAPPER_OBJECT(obj));
return static_cast<XPCWrappedNative *>(js::GetObjectPrivate(obj));
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}
JSObject*
XrayTraits::getHolder(JSObject *wrapper)
{
MOZ_ASSERT(WrapperFactory::IsXrayWrapper(wrapper));
js::Value v = js::GetProxyExtra(wrapper, 0);
return v.isObject() ? &v.toObject() : nullptr;
}
JSObject*
XrayTraits::ensureHolder(JSContext *cx, HandleObject wrapper)
{
RootedObject holder(cx, getHolder(wrapper));
if (holder)
return holder;
holder = createHolder(cx, wrapper); // virtual trap.
if (holder)
js::SetProxyExtra(wrapper, 0, ObjectValue(*holder));
return holder;
}
bool
XPCWrappedNativeXrayTraits::isResolving(JSContext *cx, JSObject *holder,
jsid id)
{
ResolvingId *cur = ResolvingId::getResolvingId(holder);
if (!cur)
return false;
return cur->isResolving(id);
}
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// Some DOM objects have shared properties that don't have an explicit
// getter/setter and rely on the class getter/setter. We install a
// class getter/setter on the holder object to trigger them.
JSBool
holder_get(JSContext *cx, HandleObject wrapper, HandleId id, MutableHandleValue vp)
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{
// JSClass::getProperty is wacky enough that it's hard to be sure someone
// can't inherit this getter by prototyping a random object to an
// XrayWrapper. Be safe.
NS_ENSURE_TRUE(WrapperFactory::IsXrayWrapper(wrapper), true);
JSObject *holder = GetHolder(wrapper);
XPCWrappedNative *wn = XPCWrappedNativeXrayTraits::getWN(wrapper);
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if (NATIVE_HAS_FLAG(wn, WantGetProperty)) {
JSAutoCompartment ac(cx, holder);
bool retval = true;
nsresult rv = wn->GetScriptableCallback()->GetProperty(wn, cx, wrapper,
id, vp.address(), &retval);
if (NS_FAILED(rv) || !retval) {
if (retval)
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XPCThrower::Throw(rv, cx);
return false;
}
}
return true;
}
JSBool
holder_set(JSContext *cx, HandleObject wrapper, HandleId id, JSBool strict, MutableHandleValue vp)
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{
// JSClass::setProperty is wacky enough that it's hard to be sure someone
// can't inherit this getter by prototyping a random object to an
// XrayWrapper. Be safe.
NS_ENSURE_TRUE(WrapperFactory::IsXrayWrapper(wrapper), true);
JSObject *holder = GetHolder(wrapper);
if (XPCWrappedNativeXrayTraits::isResolving(cx, holder, id)) {
return true;
}
XPCWrappedNative *wn = XPCWrappedNativeXrayTraits::getWN(wrapper);
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if (NATIVE_HAS_FLAG(wn, WantSetProperty)) {
JSAutoCompartment ac(cx, holder);
bool retval = true;
nsresult rv = wn->GetScriptableCallback()->SetProperty(wn, cx, wrapper,
id, vp.address(), &retval);
if (NS_FAILED(rv) || !retval) {
if (retval)
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XPCThrower::Throw(rv, cx);
return false;
}
}
return true;
}
class AutoSetWrapperNotShadowing
{
public:
AutoSetWrapperNotShadowing(ResolvingId *resolvingId MOZ_GUARD_OBJECT_NOTIFIER_PARAM)
{
MOZ_GUARD_OBJECT_NOTIFIER_INIT;
MOZ_ASSERT(resolvingId);
mResolvingId = resolvingId;
mResolvingId->mXrayShadowing = true;
}
~AutoSetWrapperNotShadowing()
{
mResolvingId->mXrayShadowing = false;
}
private:
MOZ_DECL_USE_GUARD_OBJECT_NOTIFIER
ResolvingId *mResolvingId;
};
// This is called after the resolveNativeProperty could not find any property
// with the given id. At this point we can check for DOM specific collections
// like document["formName"] because we already know that it is not shadowing
// any native property.
bool
XPCWrappedNativeXrayTraits::resolveDOMCollectionProperty(JSContext *cx, HandleObject wrapper,
HandleObject holder, HandleId id,
PropertyDescriptor *desc, unsigned flags)
{
// If we are not currently resolving this id and resolveNative is called
// we don't do anything. (see defineProperty in case of shadowing is forbidden).
ResolvingId *rid = ResolvingId::getResolvingId(holder);
if (!rid || rid->mId != id)
return true;
XPCWrappedNative *wn = getWN(wrapper);
if (!wn) {
// This should NEVER happen, but let's be extra careful here
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// because of the reported crashes (Bug 832091).
XPCThrower::Throw(NS_ERROR_UNEXPECTED, cx);
return false;
}
if (!NATIVE_HAS_FLAG(wn, WantNewResolve))
return true;
ResolvingId *resolvingId = ResolvingId::getResolvingIdFromWrapper(wrapper);
if (!resolvingId) {
// This should NEVER happen, but let's be extra careful here
// becaue of the reported crashes (Bug 832091).
XPCThrower::Throw(NS_ERROR_UNEXPECTED, cx);
return false;
}
// Setting the current ResolvingId in non-shadowing mode. So for this id
// Xray won't ignore DOM specific collection properties temporarily.
AutoSetWrapperNotShadowing asw(resolvingId);
bool retval = true;
RootedObject pobj(cx);
nsresult rv = wn->GetScriptableInfo()->GetCallback()->NewResolve(wn, cx, wrapper, id,
flags, pobj.address(), &retval);
if (NS_FAILED(rv)) {
if (retval)
XPCThrower::Throw(rv, cx);
return false;
}
if (pobj && !JS_GetPropertyDescriptorById(cx, holder, id, 0, desc))
return false;
return true;
}
template <typename T>
static T*
As(JSObject *wrapper)
{
XPCWrappedNative *wn = XPCWrappedNativeXrayTraits::getWN(wrapper);
nsCOMPtr<T> native = do_QueryWrappedNative(wn);
return native;
}
template <typename T>
static bool
Is(JSObject *wrapper)
{
return !!As<T>(wrapper);
}
static nsQueryInterface
do_QueryInterfaceNative(JSContext* cx, HandleObject wrapper);
// Helper function to work around some limitations of the current XPC
// calling mechanism. See: bug 763897.
// The idea is that we unwrap the 'this' object, and find the wrapped
// native that belongs to it. Then we simply make the call directly
// on it after a Query Interface.
static JSBool
mozMatchesSelectorStub(JSContext *cx, unsigned argc, jsval *vp)
{
if (argc < 1) {
JS_ReportError(cx, "Not enough arguments");
return false;
}
RootedObject wrapper(cx, JS_THIS_OBJECT(cx, vp));
RootedString selector(cx, JS_ValueToString(cx, JS_ARGV(cx, vp)[0]));
if (!selector) {
return false;
}
nsDependentJSString selectorStr;
NS_ENSURE_TRUE(selectorStr.init(cx, selector), false);
nsCOMPtr<nsIDOMElement> element = do_QueryInterfaceNative(cx, wrapper);
if (!element) {
JS_ReportError(cx, "Unexpected object");
return false;
}
bool ret;
nsresult rv = element->MozMatchesSelector(selectorStr, &ret);
if (NS_FAILED(rv)) {
XPCThrower::Throw(rv, cx);
return false;
}
JS_SET_RVAL(cx, vp, BOOLEAN_TO_JSVAL(ret));
return true;
}
void
XPCWrappedNativeXrayTraits::preserveWrapper(JSObject *target)
{
XPCWrappedNative *wn =
static_cast<XPCWrappedNative *>(xpc_GetJSPrivate(target));
nsRefPtr<nsXPCClassInfo> ci;
CallQueryInterface(wn->Native(), getter_AddRefs(ci));
if (ci)
ci->PreserveWrapper(wn->Native());
}
bool
XPCWrappedNativeXrayTraits::resolveNativeProperty(JSContext *cx, HandleObject wrapper,
HandleObject holder, HandleId id,
JSPropertyDescriptor *desc, unsigned flags)
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{
MOZ_ASSERT(js::GetObjectJSClass(holder) == &HolderClass);
XPCJSRuntime* rt = nsXPConnect::GetRuntimeInstance();
if (id == rt->GetStringID(XPCJSRuntime::IDX_MOZMATCHESSELECTOR) &&
Is<nsIDOMElement>(wrapper))
{
// XPC calling mechanism cannot handle call/bind properly in some cases
// especially through xray wrappers. This is a temporary work around for
// this problem for mozMatchesSelector. See: bug 763897.
desc->obj = wrapper;
desc->attrs = JSPROP_ENUMERATE;
RootedObject proto(cx);
if (!JS_GetPrototype(cx, wrapper, proto.address()))
return false;
JSFunction *fun = JS_NewFunction(cx, mozMatchesSelectorStub,
1, 0, proto,
"mozMatchesSelector");
NS_ENSURE_TRUE(fun, false);
desc->value = OBJECT_TO_JSVAL(JS_GetFunctionObject(fun));
desc->getter = NULL;
desc->setter = NULL;
desc->shortid = 0;
return true;
}
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desc->obj = NULL;
// This will do verification and the method lookup for us.
RootedObject target(cx, getTargetObject(wrapper));
XPCCallContext ccx(JS_CALLER, cx, target, NullPtr(), id);
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// There are no native numeric properties, so we can shortcut here. We will
// not find the property. However we want to support non shadowing dom
// specific collection properties like window.frames, so we still have to
// check for those.
if (!JSID_IS_STRING(id)) {
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/* Not found */
return resolveDOMCollectionProperty(cx, wrapper, holder, id, desc, flags);
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}
XPCNativeInterface *iface;
XPCNativeMember *member;
XPCWrappedNative *wn = getWN(wrapper);
if (ccx.GetWrapper() != wn || !wn->IsValid()) {
// Something is wrong. If the wrapper is not even valid let's not risk
// calling resolveDOMCollectionProperty.
return true;
} else if (!(iface = ccx.GetInterface()) ||
!(member = ccx.GetMember())) {
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/* Not found */
return resolveDOMCollectionProperty(cx, wrapper, holder, id, desc, flags);
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}
desc->obj = holder;
desc->attrs = JSPROP_ENUMERATE;
desc->getter = NULL;
desc->setter = NULL;
desc->shortid = 0;
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desc->value = JSVAL_VOID;
RootedValue fval(cx, JSVAL_VOID);
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if (member->IsConstant()) {
if (!member->GetConstantValue(ccx, iface, &desc->value)) {
JS_ReportError(cx, "Failed to convert constant native property to JS value");
return false;
}
} else if (member->IsAttribute()) {
// This is a getter/setter. Clone a function for it.
if (!member->NewFunctionObject(ccx, iface, wrapper, fval.address())) {
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JS_ReportError(cx, "Failed to clone function object for native getter/setter");
return false;
}
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desc->attrs |= JSPROP_GETTER;
if (member->IsWritableAttribute())
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desc->attrs |= JSPROP_SETTER;
// Make the property shared on the holder so no slot is allocated
// for it. This avoids keeping garbage alive through that slot.
desc->attrs |= JSPROP_SHARED;
} else {
// This is a method. Clone a function for it.
if (!member->NewFunctionObject(ccx, iface, wrapper, &desc->value)) {
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JS_ReportError(cx, "Failed to clone function object for native function");
return false;
}
// Without a wrapper the function would live on the prototype. Since we
// don't have one, we have to avoid calling the scriptable helper's
// GetProperty method for this property, so stub out the getter and
// setter here explicitly.
desc->getter = JS_PropertyStub;
desc->setter = JS_StrictPropertyStub;
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}
if (!JS_WrapValue(cx, &desc->value) || !JS_WrapValue(cx, fval.address()))
return false;
if (desc->attrs & JSPROP_GETTER)
desc->getter = js::CastAsJSPropertyOp(JSVAL_TO_OBJECT(fval));
if (desc->attrs & JSPROP_SETTER)
desc->setter = js::CastAsJSStrictPropertyOp(JSVAL_TO_OBJECT(fval));
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// Define the property.
return JS_DefinePropertyById(cx, holder, id, desc->value,
desc->getter, desc->setter, desc->attrs);
}
static JSBool
wrappedJSObject_getter(JSContext *cx, HandleObject wrapper, HandleId id, MutableHandleValue vp)
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{
if (!IsWrapper(wrapper) || !WrapperFactory::IsXrayWrapper(wrapper)) {
JS_ReportError(cx, "Unexpected object");
return false;
}
vp.set(OBJECT_TO_JSVAL(wrapper));
return WrapperFactory::WaiveXrayAndWrap(cx, vp.address());
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}
static JSBool
WrapURI(JSContext *cx, nsIURI *uri, MutableHandleValue vp)
{
RootedObject scope(cx, JS_GetGlobalForScopeChain(cx));
nsresult rv =
nsXPConnect::FastGetXPConnect()->WrapNativeToJSVal(cx, scope, uri, nullptr,
&NS_GET_IID(nsIURI), true,
vp.address(), nullptr);
if (NS_FAILED(rv)) {
XPCThrower::Throw(rv, cx);
return false;
}
return true;
}
static JSBool
baseURIObject_getter(JSContext *cx, HandleObject wrapper, HandleId id, MutableHandleValue vp)
{
nsCOMPtr<nsINode> native = do_QueryInterfaceNative(cx, wrapper);
if (!native) {
JS_ReportError(cx, "Unexpected object");
return false;
}
nsCOMPtr<nsIURI> uri = native->GetBaseURI();
if (!uri) {
JS_ReportOutOfMemory(cx);
return false;
}
return WrapURI(cx, uri, vp);
}
static JSBool
nodePrincipal_getter(JSContext *cx, HandleObject wrapper, HandleId id, MutableHandleValue vp)
{
nsCOMPtr<nsINode> node = do_QueryInterfaceNative(cx, wrapper);
if (!node) {
JS_ReportError(cx, "Unexpected object");
return false;
}
RootedObject scope(cx, JS_GetGlobalForScopeChain(cx));
nsresult rv =
nsXPConnect::FastGetXPConnect()->WrapNativeToJSVal(cx, scope, node->NodePrincipal(), nullptr,
&NS_GET_IID(nsIPrincipal), true,
vp.address(), nullptr);
if (NS_FAILED(rv)) {
XPCThrower::Throw(rv, cx);
return false;
}
return true;
}
bool
XrayTraits::resolveOwnProperty(JSContext *cx, Wrapper &jsWrapper,
HandleObject wrapper, HandleObject holder, HandleId id,
PropertyDescriptor *desc, unsigned flags)
{
desc->obj = NULL;
RootedObject target(cx, getTargetObject(wrapper));
RootedObject expando(cx, getExpandoObject(cx, target, wrapper));
// Check for expando properties first. Note that the expando object lives
// in the target compartment.
if (expando) {
JSAutoCompartment ac(cx, expando);
if (!JS_GetPropertyDescriptorById(cx, expando, id, 0, desc))
return false;
}
if (desc->obj) {
if (!JS_WrapPropertyDescriptor(cx, desc))
return false;
// Pretend the property lives on the wrapper.
desc->obj = wrapper;
return true;
}
return true;
}
bool
XPCWrappedNativeXrayTraits::resolveOwnProperty(JSContext *cx, Wrapper &jsWrapper,
HandleObject wrapper, HandleObject holder,
HandleId id, PropertyDescriptor *desc, unsigned flags)
{
// Call the common code.
bool ok = XrayTraits::resolveOwnProperty(cx, jsWrapper, wrapper, holder,
id, desc, flags);
if (!ok || desc->obj)
return ok;
// Check for indexed access on a window.
int32_t index = GetArrayIndexFromId(cx, id);
if (IsArrayIndex(index)) {
nsGlobalWindow* win =
static_cast<nsGlobalWindow*>(As<nsPIDOMWindow>(wrapper));
// Note: As() unwraps outer windows to get to the inner window.
if (win) {
bool unused;
nsCOMPtr<nsIDOMWindow> subframe = win->IndexedGetter(index, unused);
if (subframe) {
nsGlobalWindow* global = static_cast<nsGlobalWindow*>(subframe.get());
global->EnsureInnerWindow();
JSObject* obj = global->FastGetGlobalJSObject();
if (MOZ_UNLIKELY(!obj)) {
// It's gone?
return xpc::Throw(cx, NS_ERROR_FAILURE);
}
desc->value = ObjectValue(*obj);
mozilla::dom::FillPropertyDescriptor(desc, wrapper, true);
return JS_WrapPropertyDescriptor(cx, desc);
}
}
}
// Xray wrappers don't use the regular wrapper hierarchy, so we should be
// in the wrapper's compartment here, not the wrappee.
MOZ_ASSERT(js::IsObjectInContextCompartment(wrapper, cx));
XPCJSRuntime* rt = nsXPConnect::GetRuntimeInstance();
if (AccessCheck::isChrome(wrapper) &&
((id == rt->GetStringID(XPCJSRuntime::IDX_BASEURIOBJECT) ||
id == rt->GetStringID(XPCJSRuntime::IDX_NODEPRINCIPAL)) &&
Is<nsINode>(wrapper)))
{
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desc->obj = wrapper;
desc->attrs = JSPROP_ENUMERATE|JSPROP_SHARED;
if (id == rt->GetStringID(XPCJSRuntime::IDX_BASEURIOBJECT))
desc->getter = baseURIObject_getter;
else
desc->getter = nodePrincipal_getter;
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desc->setter = NULL;
desc->shortid = 0;
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desc->value = JSVAL_VOID;
return true;
}
JSBool hasProp;
if (!JS_HasPropertyById(cx, holder, id, &hasProp)) {
return false;
}
if (!hasProp) {
XPCWrappedNative *wn = getWN(wrapper);
// Run the resolve hook of the wrapped native.
if (!NATIVE_HAS_FLAG(wn, WantNewResolve)) {
return true;
}
bool retval = true;
RootedObject pobj(cx);
nsIXPCScriptable *callback = wn->GetScriptableInfo()->GetCallback();
nsresult rv = callback->NewResolve(wn, cx, wrapper, id, flags,
pobj.address(), &retval);
if (NS_FAILED(rv)) {
if (retval)
XPCThrower::Throw(rv, cx);
return false;
}
MOZ_ASSERT(!pobj || (JS_HasPropertyById(cx, holder, id, &hasProp) &&
hasProp), "id got defined somewhere else?");
}
// resolveOwnProperty must return a non-empty |desc| if and only if an |own|
// property was found on the object. However, given how the NewResolve setup
// works, we can't run the resolve hook if the holder already has a property
// of the same name. So if there was a pre-existing property on the holder,
// we have to use it. But we have no way of knowing if it corresponded to an
// |own| or non-|own| property, since both get cached on the holder and the
// |own|-ness information is lost.
//
// So we just over-zealously call things |own| here. This can cause us to
// return non-|own| properties from Object.getOwnPropertyDescriptor if
// lookups are performed in a certain order, but we can probably live with
// that until XPCWN Xrays go away with the new DOM bindings.
return JS_GetPropertyDescriptorById(cx, holder, id, 0, desc);
}
bool
XPCWrappedNativeXrayTraits::defineProperty(JSContext *cx, HandleObject wrapper, HandleId id,
PropertyDescriptor *desc,
Handle<PropertyDescriptor> existingDesc, bool *defined)
{
*defined = false;
JSObject *holder = singleton.ensureHolder(cx, wrapper);
if (isResolving(cx, holder, id)) {
if (!(desc->attrs & (JSPROP_GETTER | JSPROP_SETTER))) {
if (!desc->getter)
desc->getter = holder_get;
if (!desc->setter)
desc->setter = holder_set;
}
*defined = true;
return JS_DefinePropertyById(cx, holder, id, desc->value, desc->getter, desc->setter,
desc->attrs);
}
// Check for an indexed property on a Window. If that's happening, do
// nothing but claim we defined it so it won't get added as an expando.
int32_t index = GetArrayIndexFromId(cx, id);
if (IsArrayIndex(index) && Is<nsIDOMWindow>(wrapper)) {
*defined = true;
return true;
}
return true;
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}
bool
XPCWrappedNativeXrayTraits::enumerateNames(JSContext *cx, HandleObject wrapper, unsigned flags,
AutoIdVector &props)
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{
// Force all native properties to be materialized onto the wrapped native.
AutoIdVector wnProps(cx);
{
RootedObject target(cx, singleton.getTargetObject(wrapper));
JSAutoCompartment ac(cx, target);
if (!js::GetPropertyNames(cx, target, flags, &wnProps))
return false;
}
// Go through the properties we got and enumerate all native ones.
for (size_t n = 0; n < wnProps.length(); ++n) {
RootedId id(cx, wnProps[n]);
JSBool hasProp;
if (!JS_HasPropertyById(cx, wrapper, id, &hasProp))
return false;
if (hasProp)
props.append(id);
}
return true;
}
JSObject *
XPCWrappedNativeXrayTraits::createHolder(JSContext *cx, JSObject *wrapper)
{
JSObject *global = JS_GetGlobalForObject(cx, wrapper);
JSObject *holder = JS_NewObjectWithGivenProto(cx, &HolderClass, nullptr,
global);
if (!holder)
return nullptr;
js::SetReservedSlot(holder, JSSLOT_RESOLVING, PrivateValue(NULL));
return holder;
}
bool
XPCWrappedNativeXrayTraits::call(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args,
js::Wrapper& baseInstance)
{
// Run the resolve hook of the wrapped native.
XPCWrappedNative *wn = getWN(wrapper);
if (NATIVE_HAS_FLAG(wn, WantCall)) {
XPCCallContext ccx(JS_CALLER, cx, wrapper, NullPtr(), JSID_VOIDHANDLE, args.length(),
args.array(), args.rval().address());
if (!ccx.IsValid())
return false;
bool ok = true;
nsresult rv = wn->GetScriptableInfo()->GetCallback()->Call(
wn, cx, wrapper, args, &ok);
if (NS_FAILED(rv)) {
if (ok)
XPCThrower::Throw(rv, cx);
return false;
}
}
return true;
}
bool
XPCWrappedNativeXrayTraits::construct(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args,
js::Wrapper& baseInstance)
{
// Run the resolve hook of the wrapped native.
XPCWrappedNative *wn = getWN(wrapper);
if (NATIVE_HAS_FLAG(wn, WantConstruct)) {
XPCCallContext ccx(JS_CALLER, cx, wrapper, NullPtr(), JSID_VOIDHANDLE, args.length(),
args.array(), args.rval().address());
if (!ccx.IsValid())
return false;
bool ok = true;
nsresult rv = wn->GetScriptableInfo()->GetCallback()->Construct(
wn, cx, wrapper, args, &ok);
if (NS_FAILED(rv)) {
if (ok)
XPCThrower::Throw(rv, cx);
return false;
}
}
return true;
}
bool
DOMXrayTraits::resolveNativeProperty(JSContext *cx, HandleObject wrapper,
HandleObject holder, HandleId id,
JSPropertyDescriptor *desc, unsigned flags)
{
RootedObject obj(cx, getTargetObject(wrapper));
if (!XrayResolveNativeProperty(cx, wrapper, obj, id, desc))
return false;
NS_ASSERTION(!desc->obj || desc->obj == wrapper,
"What did we resolve this on?");
return true;
}
bool
DOMXrayTraits::resolveOwnProperty(JSContext *cx, Wrapper &jsWrapper, HandleObject wrapper,
HandleObject holder, HandleId id,
JSPropertyDescriptor *desc, unsigned flags)
{
// Call the common code.
bool ok = XrayTraits::resolveOwnProperty(cx, jsWrapper, wrapper, holder,
id, desc, flags);
if (!ok || desc->obj)
return ok;
RootedObject obj(cx, getTargetObject(wrapper));
if (!XrayResolveOwnProperty(cx, wrapper, obj, id, desc, flags))
return false;
NS_ASSERTION(!desc->obj || desc->obj == wrapper,
"What did we resolve this on?");
return true;
}
bool
DOMXrayTraits::defineProperty(JSContext *cx, HandleObject wrapper, HandleId id,
PropertyDescriptor *desc,
Handle<PropertyDescriptor> existingDesc, bool *defined)
{
if (!existingDesc.obj())
return true;
JS::Rooted<JSObject*> obj(cx, getTargetObject(wrapper));
return XrayDefineProperty(cx, wrapper, obj, id, desc, defined);
}
bool
DOMXrayTraits::enumerateNames(JSContext *cx, HandleObject wrapper, unsigned flags,
AutoIdVector &props)
{
JS::Rooted<JSObject*> obj(cx, getTargetObject(wrapper));
return XrayEnumerateProperties(cx, wrapper, obj, flags, props);
}
bool
DOMXrayTraits::call(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args, js::Wrapper& baseInstance)
{
RootedObject obj(cx, getTargetObject(wrapper));
js::Class* clasp = js::GetObjectClass(obj);
// What we have is either a WebIDL interface object, a WebIDL prototype
// object, or a WebIDL instance object. WebIDL prototype objects never have
// a clasp->call. WebIDL interface objects we want to invoke on the xray
// compartment. WebIDL instance objects either don't have a clasp->call or
// are using "legacycaller", which basically means plug-ins. We want to
// call those on the content compartment.
if (clasp->flags & JSCLASS_IS_DOMIFACEANDPROTOJSCLASS) {
if (!clasp->call) {
js_ReportIsNotFunction(cx, JS::ObjectValue(*wrapper));
return false;
}
// call it on the Xray compartment
if (!clasp->call(cx, args.length(), args.base()))
return false;
} else {
// This is only reached for WebIDL instance objects, and in practice
// only for plugins. Just call them on the content compartment.
if (!baseInstance.call(cx, wrapper, args))
return false;
}
return JS_WrapValue(cx, args.rval().address());
}
bool
DOMXrayTraits::construct(JSContext *cx, HandleObject wrapper,
const JS::CallArgs &args, js::Wrapper& baseInstance)
{
RootedObject obj(cx, getTargetObject(wrapper));
MOZ_ASSERT(mozilla::dom::HasConstructor(obj));
js::Class* clasp = js::GetObjectClass(obj);
// See comments in DOMXrayTraits::call() explaining what's going on here.
if (clasp->flags & JSCLASS_IS_DOMIFACEANDPROTOJSCLASS) {
if (!clasp->construct) {
js_ReportIsNotFunction(cx, JS::ObjectValue(*wrapper));
return false;
}
if (!clasp->construct(cx, args.length(), args.base()))
return false;
} else {
if (!baseInstance.construct(cx, wrapper, args))
return false;
}
if (!args.rval().isObject() || !JS_WrapValue(cx, args.rval().address()))
return false;
return true;
}
void
DOMXrayTraits::preserveWrapper(JSObject *target)
{
nsISupports *identity = mozilla::dom::UnwrapDOMObjectToISupports(target);
if (!identity)
return;
nsWrapperCache* cache = nullptr;
CallQueryInterface(identity, &cache);
if (cache)
nsContentUtils::PreserveWrapper(identity, cache);
}
JSObject*
DOMXrayTraits::createHolder(JSContext *cx, JSObject *wrapper)
{
return JS_NewObjectWithGivenProto(cx, nullptr, nullptr,
JS_GetGlobalForObject(cx, wrapper));
}
template <typename Base, typename Traits>
XrayWrapper<Base, Traits>::XrayWrapper(unsigned flags)
: Base(flags | WrapperFactory::IS_XRAY_WRAPPER_FLAG)
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{
}
template <typename Base, typename Traits>
XrayWrapper<Base, Traits>::~XrayWrapper()
{
}
namespace XrayUtils {
JSObject *
GetNativePropertiesObject(JSContext *cx, JSObject *wrapper)
{
NS_ASSERTION(js::IsWrapper(wrapper) && WrapperFactory::IsXrayWrapper(wrapper),
"bad object passed in");
JSObject *holder = GetHolder(wrapper);
NS_ASSERTION(holder, "uninitialized wrapper being used?");
return holder;
}
bool
IsXrayResolving(JSContext *cx, HandleObject wrapper, HandleId id)
{
if (!WrapperFactory::IsXrayWrapper(wrapper) ||
GetXrayType(wrapper) != XrayForWrappedNative)
{
return false;
}
JSObject *holder =
XPCWrappedNativeXrayTraits::singleton.ensureHolder(cx, wrapper);
return XPCWrappedNativeXrayTraits::isResolving(cx, holder, id);
}
bool
HasNativeProperty(JSContext *cx, HandleObject wrapper, HandleId id, bool *hasProp)
{
MOZ_ASSERT(WrapperFactory::IsXrayWrapper(wrapper));
XrayTraits *traits = GetXrayTraits(wrapper);
MOZ_ASSERT(traits);
RootedObject holder(cx, traits->ensureHolder(cx, wrapper));
NS_ENSURE_TRUE(holder, false);
*hasProp = false;
Rooted<PropertyDescriptor> desc(cx);
Wrapper *handler = Wrapper::wrapperHandler(wrapper);
// Try resolveOwnProperty.
Maybe<ResolvingId> resolvingId;
if (traits == &XPCWrappedNativeXrayTraits::singleton)
resolvingId.construct(cx, wrapper, id);
if (!traits->resolveOwnProperty(cx, *handler, wrapper, holder, id, desc.address(), 0))
return false;
if (desc.object()) {
*hasProp = true;
return true;
}
// Try the holder.
JSBool found = false;
if (!JS_AlreadyHasOwnPropertyById(cx, holder, id, &found))
return false;
if (found) {
*hasProp = true;
return true;
}
// Try resolveNativeProperty.
if (!traits->resolveNativeProperty(cx, wrapper, holder, id, desc.address(), 0))
return false;
*hasProp = !!desc.object();
return true;
}
} // namespace XrayUtils
static JSBool
XrayToString(JSContext *cx, unsigned argc, jsval *vp)
{
RootedObject wrapper(cx, JS_THIS_OBJECT(cx, vp));
if (!wrapper)
return false;
if (IsWrapper(wrapper) &&
GetProxyHandler(wrapper) == &sandboxCallableProxyHandler) {
wrapper = xpc::SandboxCallableProxyHandler::wrappedObject(wrapper);
}
if (!IsWrapper(wrapper) || !WrapperFactory::IsXrayWrapper(wrapper)) {
JS_ReportError(cx, "XrayToString called on an incompatible object");
return false;
}
RootedObject obj(cx, XrayTraits::getTargetObject(wrapper));
static const char start[] = "[object XrayWrapper ";
static const char end[] = "]";
if (UseDOMXray(obj))
return NativeToString(cx, wrapper, obj, start, end, vp);
nsAutoString result;
result.AppendASCII(start);
XPCCallContext ccx(JS_CALLER, cx, obj);
XPCWrappedNative *wn = XPCWrappedNativeXrayTraits::getWN(wrapper);
char *wrapperStr = wn->ToString(ccx);
if (!wrapperStr) {
JS_ReportOutOfMemory(cx);
return false;
}
result.AppendASCII(wrapperStr);
JS_smprintf_free(wrapperStr);
result.AppendASCII(end);
JSString *str = JS_NewUCStringCopyN(cx, reinterpret_cast<const jschar *>(result.get()),
result.Length());
if (!str)
return false;
*vp = STRING_TO_JSVAL(str);
return true;
}
#ifdef DEBUG
static void
DEBUG_CheckXBLCallable(JSContext *cx, JSObject *obj)
{
MOZ_ASSERT(!js::IsCrossCompartmentWrapper(obj));
MOZ_ASSERT(JS_ObjectIsCallable(cx, obj));
}
static void
DEBUG_CheckXBLLookup(JSContext *cx, JSPropertyDescriptor *desc)
{
if (!desc->obj)
return;
if (!desc->value.isUndefined()) {
MOZ_ASSERT(desc->value.isObject());
DEBUG_CheckXBLCallable(cx, &desc->value.toObject());
}
if (desc->getter) {
MOZ_ASSERT(desc->attrs & JSPROP_GETTER);
DEBUG_CheckXBLCallable(cx, JS_FUNC_TO_DATA_PTR(JSObject *, desc->getter));
}
if (desc->setter) {
MOZ_ASSERT(desc->attrs & JSPROP_SETTER);
DEBUG_CheckXBLCallable(cx, JS_FUNC_TO_DATA_PTR(JSObject *, desc->setter));
}
}
#else
#define DEBUG_CheckXBLLookup(a, b) {}
#endif
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::isExtensible(JSObject *wrapper)
{
// Xray wrappers are supposed to provide a clean view of the target
// reflector, hiding any modifications by script in the target scope. So
// even if that script freezes the reflector, we don't want to make that
// visible to the caller. DOM reflectors are always extensible by default,
// so we can just return true here.
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::preventExtensions(JSContext *cx, HandleObject wrapper)
{
// See above.
JS_ReportErrorNumber(cx, js_GetErrorMessage, NULL, JSMSG_CANT_CHANGE_EXTENSIBILITY);
return false;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::getPropertyDescriptor(JSContext *cx, HandleObject wrapper, HandleId id,
PropertyDescriptor *desc, unsigned flags)
{
assertEnteredPolicy(cx, wrapper, id);
RootedObject holder(cx, Traits::singleton.ensureHolder(cx, wrapper));
if (Traits::isResolving(cx, holder, id)) {
desc->obj = NULL;
return true;
}
typename Traits::ResolvingIdImpl resolving(cx, wrapper, id);
if (!holder)
return false;
// Only chrome wrappers and same-origin xrays (used by jetpack sandboxes)
// get .wrappedJSObject. We can check this by determining if the compartment
// of the wrapper subsumes that of the wrappee.
XPCJSRuntime* rt = nsXPConnect::GetRuntimeInstance();
if (AccessCheck::wrapperSubsumes(wrapper) &&
id == rt->GetStringID(XPCJSRuntime::IDX_WRAPPED_JSOBJECT)) {
desc->obj = wrapper;
desc->attrs = JSPROP_ENUMERATE|JSPROP_SHARED;
desc->getter = wrappedJSObject_getter;
desc->setter = NULL;
desc->shortid = 0;
desc->value = JSVAL_VOID;
return true;
}
// Ordering is important here.
//
// We first need to call resolveOwnProperty, even before checking the holder,
// because there might be a new dynamic |own| property that appears and
// shadows a previously-resolved non-own property that we cached on the
// holder. This can happen with indexed properties on NodeLists, for example,
// which are |own| value props.
//
// resolveOwnProperty may or may not cache what it finds on the holder,
// depending on how ephemeral it decides the property is. XPCWN |own|
// properties generally end up on the holder via NewResolve, whereas
// NodeList |own| properties don't get defined on the holder, since they're
// supposed to be dynamic. This means that we have to first check the result
// of resolveOwnProperty, and _then_, if that comes up blank, check the
// holder for any cached native properties.
//
// Finally, we call resolveNativeProperty, which checks non-own properties,
// and unconditionally caches what it finds on the holder.
// Check resolveOwnProperty.
if (!Traits::singleton.resolveOwnProperty(cx, *this, wrapper, holder, id, desc, flags))
return false;
// Check the holder.
if (!desc->obj && !JS_GetPropertyDescriptorById(cx, holder, id, 0, desc))
return false;
if (desc->obj) {
desc->obj = wrapper;
return true;
}
// Nothing in the cache. Call through, and cache the result.
if (!Traits::singleton.resolveNativeProperty(cx, wrapper, holder, id, desc, flags))
return false;
// We need to handle named access on the Window somewhere other than
// Traits::resolveOwnProperty, because per spec it happens on the Global
// Scope Polluter and thus the resulting properties are non-|own|. However,
// we're set up (above) to cache (on the holder) anything that comes out of
// resolveNativeProperty, which we don't want for something dynamic like
// named access. So we just handle it separately here.
nsGlobalWindow *win;
if (!desc->obj && Traits::Type == XrayForWrappedNative && JSID_IS_STRING(id) &&
(win = static_cast<nsGlobalWindow*>(As<nsPIDOMWindow>(wrapper))))
{
nsDependentJSString name(id);
nsCOMPtr<nsIDOMWindow> childDOMWin = win->GetChildWindow(name);
if (childDOMWin) {
nsGlobalWindow *cwin = static_cast<nsGlobalWindow*>(childDOMWin.get());
JSObject *childObj = cwin->FastGetGlobalJSObject();
if (MOZ_UNLIKELY(!childObj))
return xpc::Throw(cx, NS_ERROR_FAILURE);
mozilla::dom::FillPropertyDescriptor(desc, wrapper,
ObjectValue(*childObj),
/* readOnly = */ true);
return JS_WrapPropertyDescriptor(cx, desc);
}
}
if (!desc->obj &&
id == nsXPConnect::GetRuntimeInstance()->GetStringID(XPCJSRuntime::IDX_TO_STRING))
{
JSFunction *toString = JS_NewFunction(cx, XrayToString, 0, 0, holder, "toString");
if (!toString)
return false;
desc->obj = wrapper;
desc->attrs = 0;
desc->getter = NULL;
desc->setter = NULL;
desc->shortid = 0;
desc->value.setObject(*JS_GetFunctionObject(toString));
}
// If we're a special scope for in-content XBL, our script expects to see
// the bound XBL methods and attributes when accessing content. However,
// these members are implemented in content via custom-spliced prototypes,
// and thus aren't visible through Xray wrappers unless we handle them
// explicitly. So we check if we're running in such a scope, and if so,
// whether the wrappee is a bound element. If it is, we do a lookup via
// specialized XBL machinery.
//
// While we have to do some sketchy walking through content land, we should
// be protected by read-only/non-configurable properties, and any functions
// we end up with should _always_ be living in our own scope (the XBL scope).
// Make sure to assert that.
nsCOMPtr<nsIContent> content;
if (!desc->obj &&
EnsureCompartmentPrivate(wrapper)->scope->IsXBLScope() &&
(content = do_QueryInterfaceNative(cx, wrapper)))
{
if (!nsContentUtils::LookupBindingMember(cx, content, id, desc))
return false;
DEBUG_CheckXBLLookup(cx, desc);
}
// If we still have nothing, we're done.
if (!desc->obj)
return true;
if (!JS_DefinePropertyById(cx, holder, id, desc->value, desc->getter,
desc->setter, desc->attrs) ||
!JS_GetPropertyDescriptorById(cx, holder, id, flags, desc))
{
return false;
}
MOZ_ASSERT(desc->obj);
desc->obj = wrapper;
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::getOwnPropertyDescriptor(JSContext *cx, HandleObject wrapper, HandleId id,
PropertyDescriptor *desc, unsigned flags)
{
assertEnteredPolicy(cx, wrapper, id);
RootedObject holder(cx, Traits::singleton.ensureHolder(cx, wrapper));
if (Traits::isResolving(cx, holder, id)) {
desc->obj = NULL;
return true;
}
typename Traits::ResolvingIdImpl resolving(cx, wrapper, id);
// NB: Nothing we do here acts on the wrapped native itself, so we don't
// enter our policy.
if (!Traits::singleton.resolveOwnProperty(cx, *this, wrapper, holder, id, desc, flags))
return false;
if (desc->obj)
desc->obj = wrapper;
return true;
}
// Consider what happens when chrome does |xray.expando = xray.wrappedJSObject|.
//
// Since the expando comes from the target compartment, wrapping it back into
// the target compartment to define it on the expando object ends up stripping
// off the Xray waiver that gives |xray| and |xray.wrappedJSObject| different
// identities. This is generally the right thing to do when wrapping across
// compartments, but is incorrect in the special case of the Xray expando
// object. Manually re-apply Xrays if necessary.
//
// NB: In order to satisfy the invariants of WaiveXray, we need to pass
// in an object sans security wrapper, which means we need to strip off any
// potential same-compartment security wrapper that may have been applied
// to the content object. This is ok, because the the expando object is only
// ever accessed by code across the compartment boundary.
static bool
RecreateLostWaivers(JSContext *cx, PropertyDescriptor *orig,
MutableHandle<PropertyDescriptor> wrapped)
{
// Compute whether the original objects were waived, and implicitly, whether
// they were objects at all.
bool valueWasWaived =
orig->value.isObject() &&
WrapperFactory::HasWaiveXrayFlag(&orig->value.toObject());
bool getterWasWaived =
(orig->attrs & JSPROP_GETTER) &&
WrapperFactory::HasWaiveXrayFlag(JS_FUNC_TO_DATA_PTR(JSObject*, orig->getter));
bool setterWasWaived =
(orig->attrs & JSPROP_SETTER) &&
WrapperFactory::HasWaiveXrayFlag(JS_FUNC_TO_DATA_PTR(JSObject*, orig->setter));
// Recreate waivers. Note that for value, we need an extra UncheckedUnwrap
// to handle same-compartment security wrappers (see above). This should
// never happen for getters/setters.
RootedObject rewaived(cx);
if (valueWasWaived && !IsCrossCompartmentWrapper(&wrapped.value().toObject())) {
rewaived = &wrapped.value().toObject();
rewaived = WrapperFactory::WaiveXray(cx, UncheckedUnwrap(rewaived));
NS_ENSURE_TRUE(rewaived, false);
wrapped.value().set(ObjectValue(*rewaived));
}
if (getterWasWaived && !IsCrossCompartmentWrapper(wrapped.getterObject())) {
MOZ_ASSERT(CheckedUnwrap(wrapped.getterObject()));
rewaived = WrapperFactory::WaiveXray(cx, wrapped.getterObject());
NS_ENSURE_TRUE(rewaived, false);
wrapped.setGetterObject(rewaived);
}
if (setterWasWaived && !IsCrossCompartmentWrapper(wrapped.setterObject())) {
MOZ_ASSERT(CheckedUnwrap(wrapped.setterObject()));
rewaived = WrapperFactory::WaiveXray(cx, wrapped.setterObject());
NS_ENSURE_TRUE(rewaived, false);
wrapped.setSetterObject(rewaived);
}
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::defineProperty(JSContext *cx, HandleObject wrapper,
HandleId id, PropertyDescriptor *desc)
{
assertEnteredPolicy(cx, wrapper, id);
// NB: We still need JSRESOLVE_ASSIGNING here for the time being, because it
// tells things like nodelists whether they should create the property or not.
Rooted<PropertyDescriptor> existing_desc(cx);
if (!getOwnPropertyDescriptor(cx, wrapper, id, existing_desc.address(), JSRESOLVE_ASSIGNING))
return false;
if (existing_desc.object() && existing_desc.isPermanent())
return true; // silently ignore attempt to overwrite native property
bool defined = false;
if (!Traits::defineProperty(cx, wrapper, id, desc, existing_desc, &defined))
return false;
if (defined)
return true;
// We're placing an expando. The expando objects live in the target
// compartment, so we need to enter it.
RootedObject target(cx, Traits::singleton.getTargetObject(wrapper));
JSAutoCompartment ac(cx, target);
// Grab the relevant expando object.
RootedObject expandoObject(cx, Traits::singleton.ensureExpandoObject(cx, wrapper,
target));
if (!expandoObject)
return false;
// Wrap the property descriptor for the target compartment.
Rooted<PropertyDescriptor> wrappedDesc(cx, *desc);
if (!JS_WrapPropertyDescriptor(cx, wrappedDesc.address()))
return false;
// Fix up Xray waivers.
if (!RecreateLostWaivers(cx, desc, &wrappedDesc))
return false;
return JS_DefinePropertyById(cx, expandoObject, id, wrappedDesc.value(),
wrappedDesc.getter(), wrappedDesc.setter(),
wrappedDesc.get().attrs);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::getOwnPropertyNames(JSContext *cx, HandleObject wrapper,
AutoIdVector &props)
{
assertEnteredPolicy(cx, wrapper, JSID_VOID);
return enumerate(cx, wrapper, JSITER_OWNONLY | JSITER_HIDDEN, props);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::delete_(JSContext *cx, HandleObject wrapper,
HandleId id, bool *bp)
{
assertEnteredPolicy(cx, wrapper, id);
// Check the expando object.
RootedObject target(cx, Traits::getTargetObject(wrapper));
RootedObject expando(cx, Traits::singleton.getExpandoObject(cx, target, wrapper));
JSBool b = true;
if (expando) {
JSAutoCompartment ac(cx, expando);
RootedValue v(cx);
if (!JS_DeletePropertyById2(cx, expando, id, v.address()) ||
!JS_ValueToBoolean(cx, v, &b))
{
return false;
}
}
*bp = !!b;
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::enumerate(JSContext *cx, HandleObject wrapper, unsigned flags,
AutoIdVector &props)
{
assertEnteredPolicy(cx, wrapper, JSID_VOID);
if (!AccessCheck::wrapperSubsumes(wrapper)) {
JS_ReportError(cx, "Not allowed to enumerate cross origin objects");
return false;
}
// Enumerate expando properties first. Note that the expando object lives
// in the target compartment.
RootedObject target(cx, Traits::singleton.getTargetObject(wrapper));
RootedObject expando(cx, Traits::singleton.getExpandoObject(cx, target, wrapper));
if (expando) {
JSAutoCompartment ac(cx, expando);
if (!js::GetPropertyNames(cx, expando, flags, &props))
return false;
}
if (!JS_WrapAutoIdVector(cx, props))
return false;
return Traits::enumerateNames(cx, wrapper, flags, props);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::enumerate(JSContext *cx, HandleObject wrapper,
AutoIdVector &props)
{
return enumerate(cx, wrapper, 0, props);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::get(JSContext *cx, HandleObject wrapper,
HandleObject receiver, HandleId id,
MutableHandleValue vp)
{
// Skip our Base if it isn't already ProxyHandler.
// NB: None of the functions we call are prepared for the receiver not
// being the wrapper, so ignore the receiver here.
return js::BaseProxyHandler::get(cx, wrapper, wrapper, id, vp);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::set(JSContext *cx, HandleObject wrapper,
HandleObject receiver, HandleId id,
bool strict, MutableHandleValue vp)
{
// Skip our Base if it isn't already BaseProxyHandler.
// NB: None of the functions we call are prepared for the receiver not
// being the wrapper, so ignore the receiver here.
return js::BaseProxyHandler::set(cx, wrapper, wrapper, id, strict, vp);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::has(JSContext *cx, HandleObject wrapper,
HandleId id, bool *bp)
{
// Skip our Base if it isn't already ProxyHandler.
return js::BaseProxyHandler::has(cx, wrapper, id, bp);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::hasOwn(JSContext *cx, HandleObject wrapper,
HandleId id, bool *bp)
{
// Skip our Base if it isn't already ProxyHandler.
return js::BaseProxyHandler::hasOwn(cx, wrapper, id, bp);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::keys(JSContext *cx, HandleObject wrapper,
AutoIdVector &props)
{
// Skip our Base if it isn't already ProxyHandler.
return js::BaseProxyHandler::keys(cx, wrapper, props);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::iterate(JSContext *cx, HandleObject wrapper,
unsigned flags, MutableHandleValue vp)
{
// Skip our Base if it isn't already ProxyHandler.
return js::BaseProxyHandler::iterate(cx, wrapper, flags, vp);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::call(JSContext *cx, HandleObject wrapper, const JS::CallArgs &args)
{
assertEnteredPolicy(cx, wrapper, JSID_VOID);
return Traits::call(cx, wrapper, args, Base::singleton);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::construct(JSContext *cx, HandleObject wrapper, const JS::CallArgs &args)
{
assertEnteredPolicy(cx, wrapper, JSID_VOID);
return Traits::construct(cx, wrapper, args, Base::singleton);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::defaultValue(JSContext *cx, HandleObject wrapper,
JSType hint, MutableHandleValue vp)
{
// Even if this isn't a security wrapper, Xray semantics dictate that we
// run the DefaultValue algorithm directly on the Xray wrapper.
//
// NB: We don't have to worry about things with special [[DefaultValue]]
// behavior like Date because we'll never have an XrayWrapper to them.
return js::DefaultValue(cx, wrapper, hint, vp);
}
/*
* The Permissive / Security variants should be used depending on whether the
* compartment of the wrapper is guranteed to subsume the compartment of the
* wrapped object (i.e. - whether it is safe from a security perspective to
* unwrap the wrapper).
*/
template<>
PermissiveXrayXPCWN PermissiveXrayXPCWN::singleton(0);
template class PermissiveXrayXPCWN;
template<>
SecurityXrayXPCWN SecurityXrayXPCWN::singleton(0);
template class SecurityXrayXPCWN;
template<>
PermissiveXrayDOM PermissiveXrayDOM::singleton(0);
template class PermissiveXrayDOM;
template<>
SecurityXrayDOM SecurityXrayDOM::singleton(0);
template class SecurityXrayDOM;
template<>
SCPermissiveXrayXPCWN SCPermissiveXrayXPCWN::singleton(0);
template class SCPermissiveXrayXPCWN;
template<>
SCSecurityXrayXPCWN SCSecurityXrayXPCWN::singleton(0);
template class SCSecurityXrayXPCWN;
template<>
SCPermissiveXrayDOM SCPermissiveXrayDOM::singleton(0);
template class SCPermissiveXrayDOM;
static nsQueryInterface
do_QueryInterfaceNative(JSContext* cx, HandleObject wrapper)
{
nsISupports* nativeSupports;
if (IsWrapper(wrapper) && WrapperFactory::IsXrayWrapper(wrapper)) {
RootedObject target(cx, XrayTraits::getTargetObject(wrapper));
if (GetXrayType(target) == XrayForDOMObject) {
nativeSupports = UnwrapDOMObjectToISupports(target);
} else {
XPCWrappedNative *wn = GetWrappedNative(target);
nativeSupports = wn->Native();
}
} else {
nsIXPConnect *xpc = nsXPConnect::GetXPConnect();
nativeSupports = xpc->GetNativeOfWrapper(cx, wrapper);
}
return nsQueryInterface(nativeSupports);
}
2010-07-02 14:09:48 -07:00
}