mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
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699 lines
28 KiB
C++
699 lines
28 KiB
C++
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
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* vim: set ts=4 sw=4 et tw=99 ft=cpp:
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*
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "WaiveXrayWrapper.h"
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#include "FilteringWrapper.h"
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#include "XrayWrapper.h"
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#include "AccessCheck.h"
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#include "XPCWrapper.h"
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#include "ChromeObjectWrapper.h"
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#include "WrapperFactory.h"
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#include "xpcprivate.h"
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#include "XPCMaps.h"
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#include "mozilla/dom/BindingUtils.h"
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#include "jsfriendapi.h"
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#include "mozilla/Likely.h"
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#include "nsContentUtils.h"
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using namespace JS;
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using namespace js;
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using namespace mozilla;
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namespace xpc {
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// When chrome pulls a naked property across the membrane using
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// .wrappedJSObject, we want it to cross the membrane into the
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// chrome compartment without automatically being wrapped into an
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// X-ray wrapper. We achieve this by wrapping it into a special
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// transparent wrapper in the origin (non-chrome) compartment. When
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// an object with that special wrapper applied crosses into chrome,
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// we know to not apply an X-ray wrapper.
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Wrapper XrayWaiver(WrapperFactory::WAIVE_XRAY_WRAPPER_FLAG);
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// When objects for which we waived the X-ray wrapper cross into
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// chrome, we wrap them into a special cross-compartment wrapper
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// that transitively extends the waiver to all properties we get
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// off it.
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WaiveXrayWrapper WaiveXrayWrapper::singleton(0);
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bool
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WrapperFactory::IsCOW(JSObject *obj)
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{
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return IsWrapper(obj) &&
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Wrapper::wrapperHandler(obj) == &ChromeObjectWrapper::singleton;
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}
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JSObject *
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WrapperFactory::GetXrayWaiver(JSObject *obj)
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{
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// Object should come fully unwrapped but outerized.
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MOZ_ASSERT(obj == UncheckedUnwrap(obj));
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MOZ_ASSERT(!js::GetObjectClass(obj)->ext.outerObject);
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XPCWrappedNativeScope *scope = GetObjectScope(obj);
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MOZ_ASSERT(scope);
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if (!scope->mWaiverWrapperMap)
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return nullptr;
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JSObject* xrayWaiver = scope->mWaiverWrapperMap->Find(obj);
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if (xrayWaiver)
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JS::ExposeObjectToActiveJS(xrayWaiver);
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return xrayWaiver;
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}
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JSObject *
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WrapperFactory::CreateXrayWaiver(JSContext *cx, HandleObject obj)
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{
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// The caller is required to have already done a lookup.
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// NB: This implictly performs the assertions of GetXrayWaiver.
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MOZ_ASSERT(!GetXrayWaiver(obj));
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XPCWrappedNativeScope *scope = GetObjectScope(obj);
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// Get a waiver for the proto.
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RootedObject proto(cx);
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if (!js::GetObjectProto(cx, obj, &proto))
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return nullptr;
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if (proto && !(proto = WaiveXray(cx, proto)))
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return nullptr;
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// Create the waiver.
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JSAutoCompartment ac(cx, obj);
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if (!JS_WrapObject(cx, &proto))
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return nullptr;
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JSObject *waiver = Wrapper::New(cx, obj, proto,
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JS_GetGlobalForObject(cx, obj),
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&XrayWaiver);
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if (!waiver)
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return nullptr;
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// Add the new waiver to the map. It's important that we only ever have
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// one waiver for the lifetime of the target object.
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if (!scope->mWaiverWrapperMap) {
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scope->mWaiverWrapperMap =
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JSObject2JSObjectMap::newMap(XPC_WRAPPER_MAP_SIZE);
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MOZ_ASSERT(scope->mWaiverWrapperMap);
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}
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if (!scope->mWaiverWrapperMap->Add(cx, obj, waiver))
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return nullptr;
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return waiver;
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}
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JSObject *
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WrapperFactory::WaiveXray(JSContext *cx, JSObject *objArg)
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{
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RootedObject obj(cx, objArg);
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obj = UncheckedUnwrap(obj);
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MOZ_ASSERT(!js::IsInnerObject(obj));
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JSObject *waiver = GetXrayWaiver(obj);
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if (waiver)
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return waiver;
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return CreateXrayWaiver(cx, obj);
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}
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// DoubleWrap is called from PrepareForWrapping to maintain the state that
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// we're supposed to waive Xray wrappers for the given on. On entrance, it
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// expects |cx->compartment != obj->compartment()|. The returned object will
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// be in the same compartment as |obj|.
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JSObject *
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WrapperFactory::DoubleWrap(JSContext *cx, HandleObject obj, unsigned flags)
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{
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if (flags & WrapperFactory::WAIVE_XRAY_WRAPPER_FLAG) {
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JSAutoCompartment ac(cx, obj);
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return WaiveXray(cx, obj);
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}
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return obj;
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}
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JSObject *
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WrapperFactory::PrepareForWrapping(JSContext *cx, HandleObject scope,
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HandleObject objArg, unsigned flags)
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{
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RootedObject obj(cx, objArg);
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// Outerize any raw inner objects at the entry point here, so that we don't
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// have to worry about them for the rest of the wrapping code.
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if (js::IsInnerObject(obj)) {
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JSAutoCompartment ac(cx, obj);
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obj = JS_ObjectToOuterObject(cx, obj);
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NS_ENSURE_TRUE(obj, nullptr);
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// The outerization hook wraps, which means that we can end up with a
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// CCW here if |obj| was a navigated-away-from inner. Strip any CCWs.
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obj = js::UncheckedUnwrap(obj);
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MOZ_ASSERT(js::IsOuterObject(obj));
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}
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// If we've got an outer window, there's nothing special that needs to be
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// done here, and we can move on to the next phase of wrapping. We handle
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// this case first to allow us to assert against wrappers below.
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if (js::IsOuterObject(obj))
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return DoubleWrap(cx, obj, flags);
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// Here are the rules for wrapping:
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// We should never get a proxy here (the JS engine unwraps those for us).
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MOZ_ASSERT(!IsWrapper(obj));
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// If the object being wrapped is a prototype for a standard class and the
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// wrapper does not subsumes the wrappee, use the one from the content
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// compartment. This is generally safer all-around, and in the COW case this
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// lets us safely take advantage of things like .forEach() via the
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// ChromeObjectWrapper machinery.
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//
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// If the prototype chain of chrome object |obj| looks like this:
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//
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// obj => foo => bar => chromeWin.StandardClass.prototype
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//
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// The prototype chain of COW(obj) looks lke this:
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//
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// COW(obj) => COW(foo) => COW(bar) => contentWin.StandardClass.prototype
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//
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// NB: We now remap all non-subsuming access of standard prototypes.
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//
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// NB: We need to ignore domain here so that the security relationship we
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// compute here can't change over time. See the comment above the other
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// subsumesIgnoringDomain call below.
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bool subsumes = AccessCheck::subsumesIgnoringDomain(js::GetContextCompartment(cx),
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js::GetObjectCompartment(obj));
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XrayType xrayType = GetXrayType(obj);
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if (!subsumes && xrayType == NotXray) {
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JSProtoKey key = JSProto_Null;
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{
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JSAutoCompartment ac(cx, obj);
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key = JS_IdentifyClassPrototype(cx, obj);
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}
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if (key != JSProto_Null) {
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RootedObject homeProto(cx);
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if (!JS_GetClassPrototype(cx, key, homeProto.address()))
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return nullptr;
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MOZ_ASSERT(homeProto);
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// No need to double-wrap here. We should never have waivers to
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// COWs.
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return homeProto;
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}
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}
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// Now, our object is ready to be wrapped, but several objects (notably
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// nsJSIIDs) have a wrapper per scope. If we are about to wrap one of
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// those objects in a security wrapper, then we need to hand back the
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// wrapper for the new scope instead. Also, global objects don't move
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// between scopes so for those we also want to return the wrapper. So...
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if (!IS_WN_REFLECTOR(obj) || !js::GetObjectParent(obj))
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return DoubleWrap(cx, obj, flags);
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XPCWrappedNative *wn = XPCWrappedNative::Get(obj);
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JSAutoCompartment ac(cx, obj);
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XPCCallContext ccx(JS_CALLER, cx, obj);
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RootedObject wrapScope(cx, scope);
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{
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if (NATIVE_HAS_FLAG(&ccx, WantPreCreate)) {
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// We have a precreate hook. This object might enforce that we only
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// ever create JS object for it.
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// Note: this penalizes objects that only have one wrapper, but are
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// being accessed across compartments. We would really prefer to
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// replace the above code with a test that says "do you only have one
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// wrapper?"
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nsresult rv = wn->GetScriptableInfo()->GetCallback()->
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PreCreate(wn->Native(), cx, scope, wrapScope.address());
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NS_ENSURE_SUCCESS(rv, DoubleWrap(cx, obj, flags));
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// If the handed back scope differs from the passed-in scope and is in
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// a separate compartment, then this object is explicitly requesting
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// that we don't create a second JS object for it: create a security
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// wrapper.
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if (js::GetObjectCompartment(scope) != js::GetObjectCompartment(wrapScope))
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return DoubleWrap(cx, obj, flags);
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RootedObject currentScope(cx, JS_GetGlobalForObject(cx, obj));
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if (MOZ_UNLIKELY(wrapScope != currentScope)) {
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// The wrapper claims it wants to be in the new scope, but
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// currently has a reflection that lives in the old scope. This
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// can mean one of two things, both of which are rare:
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//
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// 1 - The object has a PreCreate hook (we checked for it above),
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// but is deciding to request one-wrapper-per-scope (rather than
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// one-wrapper-per-native) for some reason. Usually, a PreCreate
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// hook indicates one-wrapper-per-native. In this case we want to
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// make a new wrapper in the new scope.
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//
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// 2 - We're midway through wrapper reparenting. The document has
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// moved to a new scope, but |wn| hasn't been moved yet, and
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// we ended up calling JS_WrapObject() on its JS object. In this
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// case, we want to return the existing wrapper.
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//
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// So we do a trick: call PreCreate _again_, but say that we're
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// wrapping for the old scope, rather than the new one. If (1) is
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// the case, then PreCreate will return the scope we pass to it
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// (the old scope). If (2) is the case, PreCreate will return the
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// scope of the document (the new scope).
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RootedObject probe(cx);
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rv = wn->GetScriptableInfo()->GetCallback()->
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PreCreate(wn->Native(), cx, currentScope, probe.address());
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// Check for case (2).
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if (probe != currentScope) {
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MOZ_ASSERT(probe == wrapScope);
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return DoubleWrap(cx, obj, flags);
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}
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// Ok, must be case (1). Fall through and create a new wrapper.
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}
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// Nasty hack for late-breaking bug 781476. This will confuse identity checks,
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// but it's probably better than any of our alternatives.
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//
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// Note: We have to ignore domain here. The JS engine assumes that, given a
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// compartment c, if c->wrap(x) returns a cross-compartment wrapper at time t0,
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// it will also return a cross-compartment wrapper for any time t1 > t0 unless
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// an explicit transplant is performed. In particular, wrapper recomputation
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// assumes that recomputing a wrapper will always result in a wrapper.
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//
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// This doesn't actually pose a security issue, because we'll still compute
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// the correct (opaque) wrapper for the object below given the security
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// characteristics of the two compartments.
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if (!AccessCheck::isChrome(js::GetObjectCompartment(wrapScope)) &&
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AccessCheck::subsumesIgnoringDomain(js::GetObjectCompartment(wrapScope),
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js::GetObjectCompartment(obj)))
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{
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return DoubleWrap(cx, obj, flags);
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}
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}
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}
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// NB: Passing a holder here inhibits slim wrappers under
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// WrapNativeToJSVal.
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nsCOMPtr<nsIXPConnectJSObjectHolder> holder;
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// This public WrapNativeToJSVal API enters the compartment of 'wrapScope'
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// so we don't have to.
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RootedValue v(cx);
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nsresult rv =
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nsXPConnect::XPConnect()->WrapNativeToJSVal(cx, wrapScope, wn->Native(), nullptr,
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&NS_GET_IID(nsISupports), false,
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v.address(), getter_AddRefs(holder));
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NS_ENSURE_SUCCESS(rv, nullptr);
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obj = JSVAL_TO_OBJECT(v);
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MOZ_ASSERT(IS_WN_REFLECTOR(obj), "bad object");
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// Because the underlying native didn't have a PreCreate hook, we had
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// to a new (or possibly pre-existing) XPCWN in our compartment.
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// This could be a problem for chrome code that passes XPCOM objects
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// across compartments, because the effects of QI would disappear across
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// compartments.
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//
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// So whenever we pull an XPCWN across compartments in this manner, we
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// give the destination object the union of the two native sets. We try
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// to do this cleverly in the common case to avoid too much overhead.
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XPCWrappedNative *newwn = XPCWrappedNative::Get(obj);
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XPCNativeSet *unionSet = XPCNativeSet::GetNewOrUsed(newwn->GetSet(),
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wn->GetSet(), false);
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if (!unionSet)
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return nullptr;
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newwn->SetSet(unionSet);
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return DoubleWrap(cx, obj, flags);
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}
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#ifdef DEBUG
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static void
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DEBUG_CheckUnwrapSafety(HandleObject obj, js::Wrapper *handler,
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JSCompartment *origin, JSCompartment *target)
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{
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if (AccessCheck::isChrome(target) || xpc::IsUniversalXPConnectEnabled(target)) {
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// If the caller is chrome (or effectively so), unwrap should always be allowed.
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MOZ_ASSERT(handler->isSafeToUnwrap());
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} else if (WrapperFactory::IsComponentsObject(obj)) {
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// The Components object that is restricted regardless of origin.
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MOZ_ASSERT(!handler->isSafeToUnwrap());
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} else if (AccessCheck::needsSystemOnlyWrapper(obj)) {
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// The rules for SOWs are complicated enough. Just skip double-checking them here.
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} else if (handler == &FilteringWrapper<CrossCompartmentSecurityWrapper, GentlyOpaque>::singleton) {
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// We explicitly use a SecurityWrapper to protect privileged callers from
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// less-privileged objects that they should never see. Skip the check in
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// this case.
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} else {
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// Otherwise, it should depend on whether the target subsumes the origin.
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MOZ_ASSERT(handler->isSafeToUnwrap() == AccessCheck::subsumes(target, origin));
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}
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}
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#else
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#define DEBUG_CheckUnwrapSafety(obj, handler, origin, target) {}
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#endif
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static Wrapper *
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SelectWrapper(bool securityWrapper, bool wantXrays, XrayType xrayType,
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bool waiveXrays)
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{
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// Waived Xray uses a modified CCW that has transparent behavior but
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// transitively waives Xrays on arguments.
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if (waiveXrays) {
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MOZ_ASSERT(!securityWrapper);
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return &WaiveXrayWrapper::singleton;
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}
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// If we don't want or can't use Xrays, select a wrapper that's either
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// entirely transparent or entirely opaque.
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if (!wantXrays || xrayType == NotXray) {
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if (!securityWrapper)
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return &CrossCompartmentWrapper::singleton;
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return &FilteringWrapper<CrossCompartmentSecurityWrapper, Opaque>::singleton;
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}
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// Ok, we're using Xray. If this isn't a security wrapper, use the permissive
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// version and skip the filter.
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if (!securityWrapper) {
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if (xrayType == XrayForWrappedNative)
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return &PermissiveXrayXPCWN::singleton;
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return &PermissiveXrayDOM::singleton;
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}
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// This is a security wrapper. Use the security versions and filter.
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if (xrayType == XrayForWrappedNative)
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return &FilteringWrapper<SecurityXrayXPCWN,
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CrossOriginAccessiblePropertiesOnly>::singleton;
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return &FilteringWrapper<SecurityXrayDOM,
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CrossOriginAccessiblePropertiesOnly>::singleton;
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}
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JSObject *
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WrapperFactory::Rewrap(JSContext *cx, HandleObject existing, HandleObject obj,
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HandleObject wrappedProto, HandleObject parent,
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unsigned flags)
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{
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MOZ_ASSERT(!IsWrapper(obj) ||
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GetProxyHandler(obj) == &XrayWaiver ||
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js::GetObjectClass(obj)->ext.innerObject,
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"wrapped object passed to rewrap");
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MOZ_ASSERT(JS_GetClass(obj) != &XrayUtils::HolderClass, "trying to wrap a holder");
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MOZ_ASSERT(!js::IsInnerObject(obj));
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// We sometimes end up here after nsContentUtils has been shut down but before
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// XPConnect has been shut down, so check the context stack the roundabout way.
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MOZ_ASSERT(XPCJSRuntime::Get()->GetJSContextStack()->Peek() == cx);
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// Compute the information we need to select the right wrapper.
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JSCompartment *origin = js::GetObjectCompartment(obj);
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JSCompartment *target = js::GetContextCompartment(cx);
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bool originIsChrome = AccessCheck::isChrome(origin);
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bool targetIsChrome = AccessCheck::isChrome(target);
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bool originSubsumesTarget = AccessCheck::subsumes(origin, target);
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bool targetSubsumesOrigin = AccessCheck::subsumes(target, origin);
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bool sameOrigin = targetSubsumesOrigin && originSubsumesTarget;
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XrayType xrayType = GetXrayType(obj);
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bool waiveXrayFlag = flags & WAIVE_XRAY_WRAPPER_FLAG;
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// By default we use the wrapped proto of the underlying object as the
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// prototype for our wrapper, but we may select something different below.
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RootedObject proxyProto(cx, wrappedProto);
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Wrapper *wrapper;
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CompartmentPrivate *targetdata = EnsureCompartmentPrivate(target);
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//
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// First, handle the special cases.
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//
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// If UniversalXPConnect is enabled, this is just some dumb mochitest. Use
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// a vanilla CCW.
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if (xpc::IsUniversalXPConnectEnabled(target)) {
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wrapper = &CrossCompartmentWrapper::singleton;
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// If this is a chrome object being exposed to content without Xrays, use
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// a COW.
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} else if (originIsChrome && !targetIsChrome && xrayType == NotXray) {
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wrapper = &ChromeObjectWrapper::singleton;
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// If content is accessing a Components object or NAC, we need a special filter,
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// even if the object is same origin. Note that we allow access to NAC for
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// remote-XUL whitelisted domains, since they don't have XBL scopes.
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} else if (IsComponentsObject(obj) && !AccessCheck::isChrome(target)) {
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wrapper = &FilteringWrapper<CrossCompartmentSecurityWrapper,
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ComponentsObjectPolicy>::singleton;
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} else if (AccessCheck::needsSystemOnlyWrapper(obj) &&
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xpc::AllowXBLScope(target) &&
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!(targetIsChrome || (targetSubsumesOrigin && nsContentUtils::IsCallerXBL())))
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{
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wrapper = &FilteringWrapper<CrossCompartmentSecurityWrapper, Opaque>::singleton;
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}
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// Normally, a non-xrayable non-waived content object that finds itself in
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// a privileged scope is wrapped with a CrossCompartmentWrapper, even though
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// the lack of a waiver _really_ should give it an opaque wrapper. This is
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// a bit too entrenched to change for content-chrome, but we can at least fix
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// it for XBL scopes.
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//
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// See bug 843829.
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else if (targetSubsumesOrigin && !originSubsumesTarget &&
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!waiveXrayFlag && xrayType == NotXray &&
|
|
IsXBLScope(target))
|
|
{
|
|
wrapper = &FilteringWrapper<CrossCompartmentSecurityWrapper, GentlyOpaque>::singleton;
|
|
}
|
|
|
|
//
|
|
// Now, handle the regular cases.
|
|
//
|
|
// These are wrappers we can compute using a rule-based approach. In order
|
|
// to do so, we need to compute some parameters.
|
|
//
|
|
else {
|
|
|
|
// The wrapper is a security wrapper (protecting the wrappee) if and
|
|
// only if the target does not subsume the origin.
|
|
bool securityWrapper = !targetSubsumesOrigin;
|
|
|
|
// Xrays are warranted if either the target or the origin don't trust
|
|
// each other. This is generally the case, unless the two are same-origin
|
|
// and the caller has not requested same-origin Xrays.
|
|
//
|
|
// Xrays are a bidirectional protection, since it affords clarity to the
|
|
// caller and privacy to the callee.
|
|
bool wantXrays = !(sameOrigin && !targetdata->wantXrays);
|
|
|
|
// If Xrays are warranted, the caller may waive them for non-security
|
|
// wrappers.
|
|
bool waiveXrays = wantXrays && !securityWrapper && waiveXrayFlag;
|
|
|
|
wrapper = SelectWrapper(securityWrapper, wantXrays, xrayType, waiveXrays);
|
|
}
|
|
|
|
if (wrapper == &ChromeObjectWrapper::singleton) {
|
|
// This shouldn't happen, but do a quick check to make some dumb addon
|
|
// doesn't expose chrome eval or Function().
|
|
JSFunction *fun = JS_GetObjectFunction(obj);
|
|
if (fun) {
|
|
if (JS_IsBuiltinEvalFunction(fun) || JS_IsBuiltinFunctionConstructor(fun)) {
|
|
JS_ReportError(cx, "Not allowed to access chrome eval or Function from content");
|
|
return nullptr;
|
|
}
|
|
}
|
|
}
|
|
|
|
DEBUG_CheckUnwrapSafety(obj, wrapper, origin, target);
|
|
|
|
if (existing && proxyProto == wrappedProto)
|
|
return Wrapper::Renew(cx, existing, obj, wrapper);
|
|
|
|
return Wrapper::New(cx, obj, proxyProto, parent, wrapper);
|
|
}
|
|
|
|
JSObject *
|
|
WrapperFactory::WrapForSameCompartment(JSContext *cx, HandleObject objArg)
|
|
{
|
|
RootedObject obj(cx, objArg);
|
|
MOZ_ASSERT(js::IsObjectInContextCompartment(obj, cx));
|
|
|
|
// NB: The contract of WrapForSameCompartment says that |obj| may or may not
|
|
// be a security wrapper. These checks implicitly handle the security
|
|
// wrapper case.
|
|
|
|
// Outerize if necessary. This, in combination with the check in
|
|
// PrepareForUnwrapping, means that calling JS_Wrap* always outerizes.
|
|
obj = JS_ObjectToOuterObject(cx, obj);
|
|
NS_ENSURE_TRUE(obj, nullptr);
|
|
|
|
if (dom::GetSameCompartmentWrapperForDOMBinding(*obj.address())) {
|
|
return obj;
|
|
}
|
|
|
|
MOZ_ASSERT(!dom::IsDOMObject(obj));
|
|
|
|
if (!IS_WN_REFLECTOR(obj))
|
|
return obj;
|
|
|
|
// Extract the WN. It should exist.
|
|
XPCWrappedNative *wn = XPCWrappedNative::Get(obj);
|
|
MOZ_ASSERT(wn, "Trying to wrap a dead WN!");
|
|
|
|
// The WN knows what to do.
|
|
RootedObject wrapper(cx, wn->GetSameCompartmentSecurityWrapper(cx));
|
|
MOZ_ASSERT_IF(wrapper != obj && IsComponentsObject(js::UncheckedUnwrap(obj)),
|
|
!Wrapper::wrapperHandler(wrapper)->isSafeToUnwrap());
|
|
return wrapper;
|
|
}
|
|
|
|
// Call WaiveXrayAndWrap when you have a JS object that you don't want to be
|
|
// wrapped in an Xray wrapper. cx->compartment is the compartment that will be
|
|
// using the returned object. If the object to be wrapped is already in the
|
|
// correct compartment, then this returns the unwrapped object.
|
|
bool
|
|
WrapperFactory::WaiveXrayAndWrap(JSContext *cx, MutableHandleValue vp)
|
|
{
|
|
if (vp.isPrimitive())
|
|
return JS_WrapValue(cx, vp);
|
|
|
|
JSObject *obj = js::UncheckedUnwrap(&vp.toObject());
|
|
MOZ_ASSERT(!js::IsInnerObject(obj));
|
|
if (js::IsObjectInContextCompartment(obj, cx)) {
|
|
vp.setObject(*obj);
|
|
return true;
|
|
}
|
|
|
|
// Even though waivers have no effect on access by scopes that don't subsume
|
|
// the underlying object, good defense-in-depth dictates that we should avoid
|
|
// handing out waivers to callers that can't use them. The transitive waiving
|
|
// machinery unconditionally calls WaiveXrayAndWrap on return values from
|
|
// waived functions, even though the return value might be not be same-origin
|
|
// with the function. So if we find ourselves trying to create a waiver for
|
|
// |cx|, we should check whether the caller has any business with waivers
|
|
// to things in |obj|'s compartment.
|
|
JSCompartment *target = js::GetContextCompartment(cx);
|
|
JSCompartment *origin = js::GetObjectCompartment(obj);
|
|
obj = AccessCheck::subsumes(target, origin) ? WaiveXray(cx, obj) : obj;
|
|
if (!obj)
|
|
return false;
|
|
|
|
vp.setObject(*obj);
|
|
return JS_WrapValue(cx, vp);
|
|
}
|
|
|
|
JSObject *
|
|
WrapperFactory::WrapSOWObject(JSContext *cx, JSObject *objArg)
|
|
{
|
|
RootedObject obj(cx, objArg);
|
|
RootedObject proto(cx);
|
|
|
|
// If we're not allowing XBL scopes, that means we're running as a remote
|
|
// XUL domain, in which we can't have SOWs. We should never be called in
|
|
// that case.
|
|
MOZ_ASSERT(xpc::AllowXBLScope(js::GetContextCompartment(cx)));
|
|
if (!JS_GetPrototype(cx, obj, &proto))
|
|
return nullptr;
|
|
JSObject *wrapperObj =
|
|
Wrapper::New(cx, obj, proto, JS_GetGlobalForObject(cx, obj),
|
|
&FilteringWrapper<SameCompartmentSecurityWrapper,
|
|
Opaque>::singleton);
|
|
return wrapperObj;
|
|
}
|
|
|
|
bool
|
|
WrapperFactory::IsComponentsObject(JSObject *obj)
|
|
{
|
|
const char *name = js::GetObjectClass(obj)->name;
|
|
return name[0] == 'n' && !strcmp(name, "nsXPCComponents");
|
|
}
|
|
|
|
JSObject *
|
|
WrapperFactory::WrapComponentsObject(JSContext *cx, HandleObject obj)
|
|
{
|
|
RootedObject proto(cx);
|
|
if (!JS_GetPrototype(cx, obj, &proto))
|
|
return nullptr;
|
|
JSObject *wrapperObj =
|
|
Wrapper::New(cx, obj, proto, JS_GetGlobalForObject(cx, obj),
|
|
&FilteringWrapper<SameCompartmentSecurityWrapper, ComponentsObjectPolicy>::singleton);
|
|
|
|
return wrapperObj;
|
|
}
|
|
|
|
bool
|
|
WrapperFactory::XrayWrapperNotShadowing(JSObject *wrapper, jsid id)
|
|
{
|
|
ResolvingId *rid = ResolvingId::getResolvingIdFromWrapper(wrapper);
|
|
return rid->isXrayShadowing(id);
|
|
}
|
|
|
|
/*
|
|
* Calls to JS_TransplantObject* should go through these helpers here so that
|
|
* waivers get fixed up properly.
|
|
*/
|
|
|
|
static bool
|
|
FixWaiverAfterTransplant(JSContext *cx, HandleObject oldWaiver, HandleObject newobj)
|
|
{
|
|
MOZ_ASSERT(Wrapper::wrapperHandler(oldWaiver) == &XrayWaiver);
|
|
MOZ_ASSERT(!js::IsCrossCompartmentWrapper(newobj));
|
|
|
|
// Create a waiver in the new compartment. We know there's not one already
|
|
// because we _just_ transplanted, which means that |newobj| was either
|
|
// created from scratch, or was previously cross-compartment wrapper (which
|
|
// should have no waiver). CreateXrayWaiver asserts this.
|
|
JSObject *newWaiver = WrapperFactory::CreateXrayWaiver(cx, newobj);
|
|
if (!newWaiver)
|
|
return false;
|
|
|
|
// Update all the cross-compartment references to oldWaiver to point to
|
|
// newWaiver.
|
|
if (!js::RemapAllWrappersForObject(cx, oldWaiver, newWaiver))
|
|
return false;
|
|
|
|
// There should be no same-compartment references to oldWaiver, and we
|
|
// just remapped all cross-compartment references. It's dead, so we can
|
|
// remove it from the map.
|
|
XPCWrappedNativeScope *scope = GetObjectScope(oldWaiver);
|
|
JSObject *key = Wrapper::wrappedObject(oldWaiver);
|
|
MOZ_ASSERT(scope->mWaiverWrapperMap->Find(key));
|
|
scope->mWaiverWrapperMap->Remove(key);
|
|
return true;
|
|
}
|
|
|
|
JSObject *
|
|
TransplantObject(JSContext *cx, JS::HandleObject origobj, JS::HandleObject target)
|
|
{
|
|
RootedObject oldWaiver(cx, WrapperFactory::GetXrayWaiver(origobj));
|
|
RootedObject newIdentity(cx, JS_TransplantObject(cx, origobj, target));
|
|
if (!newIdentity || !oldWaiver)
|
|
return newIdentity;
|
|
|
|
if (!FixWaiverAfterTransplant(cx, oldWaiver, newIdentity))
|
|
return nullptr;
|
|
return newIdentity;
|
|
}
|
|
|
|
nsIGlobalObject *
|
|
GetNativeForGlobal(JSObject *obj)
|
|
{
|
|
MOZ_ASSERT(JS_IsGlobalObject(obj));
|
|
if (!EnsureCompartmentPrivate(obj)->scope)
|
|
return nullptr;
|
|
|
|
// Every global needs to hold a native as its private.
|
|
MOZ_ASSERT(GetObjectClass(obj)->flags & (JSCLASS_PRIVATE_IS_NSISUPPORTS |
|
|
JSCLASS_HAS_PRIVATE));
|
|
nsISupports *native =
|
|
static_cast<nsISupports *>(js::GetObjectPrivate(obj));
|
|
MOZ_ASSERT(native);
|
|
|
|
// In some cases (like for windows) it is a wrapped native,
|
|
// in other cases (sandboxes, backstage passes) it's just
|
|
// a direct pointer to the native. If it's a wrapped native
|
|
// let's unwrap it first.
|
|
if (nsCOMPtr<nsIXPConnectWrappedNative> wn = do_QueryInterface(native)) {
|
|
native = wn->Native();
|
|
}
|
|
|
|
nsCOMPtr<nsIGlobalObject> global = do_QueryInterface(native);
|
|
MOZ_ASSERT(global, "Native held by global needs to implement nsIGlobalObject!");
|
|
|
|
return global;
|
|
}
|
|
|
|
}
|