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|
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* vim: set ts=8 sts=4 et sw=4 tw=99: */
/* 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/. */
#include "XrayWrapper.h"
#include "AccessCheck.h"
#include "WrapperFactory.h"
#include "nsDependentString.h"
#include "nsIScriptError.h"
#include "mozilla/dom/Element.h"
#include "mozilla/dom/ScriptSettings.h"
#include "XPCWrapper.h"
#include "xpcprivate.h"
#include "jsapi.h"
#include "jsprf.h"
#include "nsJSUtils.h"
#include "nsPrintfCString.h"
#include "mozilla/dom/BindingUtils.h"
#include "mozilla/dom/WindowBinding.h"
#include "mozilla/dom/XrayExpandoClass.h"
#include "nsGlobalWindow.h"
using namespace mozilla::dom;
using namespace JS;
using namespace mozilla;
using js::Wrapper;
using js::BaseProxyHandler;
using js::IsCrossCompartmentWrapper;
using js::UncheckedUnwrap;
using js::CheckedUnwrap;
namespace xpc {
using namespace XrayUtils;
#define Between(x, a, b) (a <= x && x <= b)
static_assert(JSProto_URIError - JSProto_Error == 7, "New prototype added in error object range");
#define AssertErrorObjectKeyInBounds(key) \
static_assert(Between(key, JSProto_Error, JSProto_URIError), "We depend on jsprototypes.h ordering here");
MOZ_FOR_EACH(AssertErrorObjectKeyInBounds, (),
(JSProto_Error, JSProto_InternalError, JSProto_EvalError, JSProto_RangeError,
JSProto_ReferenceError, JSProto_SyntaxError, JSProto_TypeError, JSProto_URIError));
static_assert(JSProto_Uint8ClampedArray - JSProto_Int8Array == 8, "New prototype added in typed array range");
#define AssertTypedArrayKeyInBounds(key) \
static_assert(Between(key, JSProto_Int8Array, JSProto_Uint8ClampedArray), "We depend on jsprototypes.h ordering here");
MOZ_FOR_EACH(AssertTypedArrayKeyInBounds, (),
(JSProto_Int8Array, JSProto_Uint8Array, JSProto_Int16Array, JSProto_Uint16Array,
JSProto_Int32Array, JSProto_Uint32Array, JSProto_Float32Array, JSProto_Float64Array, JSProto_Uint8ClampedArray));
#undef Between
inline bool
IsErrorObjectKey(JSProtoKey key)
{
return key >= JSProto_Error && key <= JSProto_URIError;
}
inline bool
IsTypedArrayKey(JSProtoKey key)
{
return key >= JSProto_Int8Array && key <= JSProto_Uint8ClampedArray;
}
// Whitelist for the standard ES classes we can Xray to.
static bool
IsJSXraySupported(JSProtoKey key)
{
if (IsTypedArrayKey(key))
return true;
if (IsErrorObjectKey(key))
return true;
switch (key) {
case JSProto_Date:
case JSProto_Object:
case JSProto_Array:
case JSProto_Function:
case JSProto_TypedArray:
case JSProto_SavedFrame:
case JSProto_RegExp:
case JSProto_Promise:
case JSProto_ArrayBuffer:
case JSProto_SharedArrayBuffer:
return true;
default:
return false;
}
}
XrayType
GetXrayType(JSObject* obj)
{
obj = js::UncheckedUnwrap(obj, /* stopAtWindowProxy = */ false);
if (mozilla::dom::UseDOMXray(obj))
return XrayForDOMObject;
const js::Class* clasp = js::GetObjectClass(obj);
if (IS_WN_CLASS(clasp) || js::IsWindowProxy(obj))
return XrayForWrappedNative;
JSProtoKey standardProto = IdentifyStandardInstanceOrPrototype(obj);
if (IsJSXraySupported(standardProto))
return XrayForJSObject;
// Modulo a few exceptions, everything else counts as an XrayWrapper to an
// opaque object, which means that more-privileged code sees nothing from
// the underlying object. This is very important for security. In some cases
// though, we need to make an exception for compatibility.
if (IsSandbox(obj))
return NotXray;
return XrayForOpaqueObject;
}
JSObject*
XrayAwareCalleeGlobal(JSObject* fun)
{
MOZ_ASSERT(js::IsFunctionObject(fun));
if (!js::FunctionHasNativeReserved(fun)) {
// Just a normal function, no Xrays involved.
return js::GetGlobalForObjectCrossCompartment(fun);
}
// The functions we expect here have the Xray wrapper they're associated with
// in their XRAY_DOM_FUNCTION_PARENT_WRAPPER_SLOT and, in a debug build,
// themselves in their XRAY_DOM_FUNCTION_NATIVE_SLOT_FOR_SELF. Assert that
// last bit.
MOZ_ASSERT(&js::GetFunctionNativeReserved(fun, XRAY_DOM_FUNCTION_NATIVE_SLOT_FOR_SELF).toObject() ==
fun);
Value v =
js::GetFunctionNativeReserved(fun, XRAY_DOM_FUNCTION_PARENT_WRAPPER_SLOT);
MOZ_ASSERT(IsXrayWrapper(&v.toObject()));
JSObject* xrayTarget = js::UncheckedUnwrap(&v.toObject());
return js::GetGlobalForObjectCrossCompartment(xrayTarget);
}
JSObject*
XrayTraits::getExpandoChain(HandleObject obj)
{
return ObjectScope(obj)->GetExpandoChain(obj);
}
bool
XrayTraits::setExpandoChain(JSContext* cx, HandleObject obj, HandleObject chain)
{
return ObjectScope(obj)->SetExpandoChain(cx, obj, chain);
}
// static
XPCWrappedNative*
XPCWrappedNativeXrayTraits::getWN(JSObject* wrapper)
{
return XPCWrappedNative::Get(getTargetObject(wrapper));
}
const JSClass XPCWrappedNativeXrayTraits::HolderClass = {
"NativePropertyHolder", JSCLASS_HAS_RESERVED_SLOTS(2)
};
const JSClass JSXrayTraits::HolderClass = {
"JSXrayHolder", JSCLASS_HAS_RESERVED_SLOTS(SLOT_COUNT)
};
bool
OpaqueXrayTraits::resolveOwnProperty(JSContext* cx, const Wrapper& jsWrapper, HandleObject wrapper,
HandleObject holder, HandleId id,
MutableHandle<PropertyDescriptor> desc)
{
bool ok = XrayTraits::resolveOwnProperty(cx, jsWrapper, wrapper, holder, id, desc);
if (!ok || desc.object())
return ok;
return ReportWrapperDenial(cx, id, WrapperDenialForXray, "object is not safely Xrayable");
}
bool
ReportWrapperDenial(JSContext* cx, HandleId id, WrapperDenialType type, const char* reason)
{
CompartmentPrivate* priv = CompartmentPrivate::Get(CurrentGlobalOrNull(cx));
bool alreadyWarnedOnce = priv->wrapperDenialWarnings[type];
priv->wrapperDenialWarnings[type] = true;
// The browser console warning is only emitted for the first violation,
// whereas the (debug-only) NS_WARNING is emitted for each violation.
#ifndef DEBUG
if (alreadyWarnedOnce)
return true;
#endif
nsAutoJSString propertyName;
RootedValue idval(cx);
if (!JS_IdToValue(cx, id, &idval))
return false;
JSString* str = JS_ValueToSource(cx, idval);
if (!str)
return false;
if (!propertyName.init(cx, str))
return false;
AutoFilename filename;
unsigned line = 0, column = 0;
DescribeScriptedCaller(cx, &filename, &line, &column);
// Warn to the terminal for the logs.
NS_WARNING(nsPrintfCString("Silently denied access to property %s: %s (@%s:%u:%u)",
NS_LossyConvertUTF16toASCII(propertyName).get(), reason,
filename.get(), line, column).get());
// If this isn't the first warning on this topic for this global, we've
// already bailed out in opt builds. Now that the NS_WARNING is done, bail
// out in debug builds as well.
if (alreadyWarnedOnce)
return true;
//
// Log a message to the console service.
//
// Grab the pieces.
nsCOMPtr<nsIConsoleService> consoleService = do_GetService(NS_CONSOLESERVICE_CONTRACTID);
NS_ENSURE_TRUE(consoleService, true);
nsCOMPtr<nsIScriptError> errorObject = do_CreateInstance(NS_SCRIPTERROR_CONTRACTID);
NS_ENSURE_TRUE(errorObject, true);
// Compute the current window id if any.
uint64_t windowId = 0;
nsGlobalWindow* win = WindowGlobalOrNull(CurrentGlobalOrNull(cx));
if (win)
windowId = win->WindowID();
Maybe<nsPrintfCString> errorMessage;
if (type == WrapperDenialForXray) {
errorMessage.emplace("XrayWrapper denied access to property %s (reason: %s). "
"See https://developer.mozilla.org/en-US/docs/Xray_vision "
"for more information. Note that only the first denied "
"property access from a given global object will be reported.",
NS_LossyConvertUTF16toASCII(propertyName).get(),
reason);
} else {
MOZ_ASSERT(type == WrapperDenialForCOW);
errorMessage.emplace("Security wrapper denied access to property %s on privileged "
"Javascript object. Support for exposing privileged objects "
"to untrusted content via __exposedProps__ is being gradually "
"removed - use WebIDL bindings or Components.utils.cloneInto "
"instead. Note that only the first denied property access from a "
"given global object will be reported.",
NS_LossyConvertUTF16toASCII(propertyName).get());
}
nsString filenameStr(NS_ConvertASCIItoUTF16(filename.get()));
nsresult rv = errorObject->InitWithWindowID(NS_ConvertASCIItoUTF16(errorMessage.ref()),
filenameStr,
EmptyString(),
line, column,
nsIScriptError::warningFlag,
"XPConnect",
windowId);
NS_ENSURE_SUCCESS(rv, true);
rv = consoleService->LogMessage(errorObject);
NS_ENSURE_SUCCESS(rv, true);
return true;
}
bool JSXrayTraits::getOwnPropertyFromWrapperIfSafe(JSContext* cx,
HandleObject wrapper,
HandleId id,
MutableHandle<PropertyDescriptor> outDesc)
{
MOZ_ASSERT(js::IsObjectInContextCompartment(wrapper, cx));
RootedObject target(cx, getTargetObject(wrapper));
{
JSAutoCompartment ac(cx, target);
if (!getOwnPropertyFromTargetIfSafe(cx, target, wrapper, id, outDesc))
return false;
}
return JS_WrapPropertyDescriptor(cx, outDesc);
}
bool JSXrayTraits::getOwnPropertyFromTargetIfSafe(JSContext* cx,
HandleObject target,
HandleObject wrapper,
HandleId id,
MutableHandle<PropertyDescriptor> outDesc)
{
// Note - This function operates in the target compartment, because it
// avoids a bunch of back-and-forth wrapping in enumerateNames.
MOZ_ASSERT(getTargetObject(wrapper) == target);
MOZ_ASSERT(js::IsObjectInContextCompartment(target, cx));
MOZ_ASSERT(WrapperFactory::IsXrayWrapper(wrapper));
MOZ_ASSERT(outDesc.object() == nullptr);
Rooted<PropertyDescriptor> desc(cx);
if (!JS_GetOwnPropertyDescriptorById(cx, target, id, &desc))
return false;
// If the property doesn't exist at all, we're done.
if (!desc.object())
return true;
// Disallow accessor properties.
if (desc.hasGetterOrSetter()) {
JSAutoCompartment ac(cx, wrapper);
return ReportWrapperDenial(cx, id, WrapperDenialForXray, "property has accessor");
}
// Apply extra scrutiny to objects.
if (desc.value().isObject()) {
RootedObject propObj(cx, js::UncheckedUnwrap(&desc.value().toObject()));
JSAutoCompartment ac(cx, propObj);
// Disallow non-subsumed objects.
if (!AccessCheck::subsumes(target, propObj)) {
JSAutoCompartment ac(cx, wrapper);
return ReportWrapperDenial(cx, id, WrapperDenialForXray, "value not same-origin with target");
}
// Disallow non-Xrayable objects.
XrayType xrayType = GetXrayType(propObj);
if (xrayType == NotXray || xrayType == XrayForOpaqueObject) {
JSAutoCompartment ac(cx, wrapper);
return ReportWrapperDenial(cx, id, WrapperDenialForXray, "value not Xrayable");
}
// Disallow callables.
if (JS::IsCallable(propObj)) {
JSAutoCompartment ac(cx, wrapper);
return ReportWrapperDenial(cx, id, WrapperDenialForXray, "value is callable");
}
}
// Disallow any property that shadows something on its (Xrayed)
// prototype chain.
JSAutoCompartment ac2(cx, wrapper);
RootedObject proto(cx);
bool foundOnProto = false;
if (!JS_GetPrototype(cx, wrapper, &proto) ||
(proto && !JS_HasPropertyById(cx, proto, id, &foundOnProto)))
{
return false;
}
if (foundOnProto)
return ReportWrapperDenial(cx, id, WrapperDenialForXray, "value shadows a property on the standard prototype");
// We made it! Assign over the descriptor, and don't forget to wrap.
outDesc.assign(desc.get());
return true;
}
// Returns true on success (in the JSAPI sense), false on failure. If true is
// returned, desc.object() will indicate whether we actually resolved
// the property.
//
// id is the property id we're looking for.
// holder is the object to define the property on.
// fs is the relevant JSFunctionSpec*.
// ps is the relevant JSPropertySpec*.
// desc is the descriptor we're resolving into.
static bool
TryResolvePropertyFromSpecs(JSContext* cx, HandleId id, HandleObject holder,
const JSFunctionSpec* fs,
const JSPropertySpec* ps,
MutableHandle<PropertyDescriptor> desc)
{
// Scan through the functions.
const JSFunctionSpec* fsMatch = nullptr;
for ( ; fs && fs->name; ++fs) {
if (PropertySpecNameEqualsId(fs->name, id)) {
fsMatch = fs;
break;
}
}
if (fsMatch) {
// Generate an Xrayed version of the method.
RootedFunction fun(cx, JS::NewFunctionFromSpec(cx, fsMatch, id));
if (!fun)
return false;
// The generic Xray machinery only defines non-own properties of the target on
// the holder. This is broken, and will be fixed at some point, but for now we
// need to cache the value explicitly. See the corresponding call to
// JS_GetOwnPropertyDescriptorById at the top of
// JSXrayTraits::resolveOwnProperty.
RootedObject funObj(cx, JS_GetFunctionObject(fun));
return JS_DefinePropertyById(cx, holder, id, funObj, 0) &&
JS_GetOwnPropertyDescriptorById(cx, holder, id, desc);
}
// Scan through the properties.
const JSPropertySpec* psMatch = nullptr;
for ( ; ps && ps->name; ++ps) {
if (PropertySpecNameEqualsId(ps->name, id)) {
psMatch = ps;
break;
}
}
if (psMatch) {
desc.value().setUndefined();
RootedFunction getterObj(cx);
RootedFunction setterObj(cx);
unsigned flags = psMatch->flags;
if (psMatch->isAccessor()) {
if (psMatch->isSelfHosted()) {
getterObj = JS::GetSelfHostedFunction(cx, psMatch->accessors.getter.selfHosted.funname, id, 0);
if (!getterObj)
return false;
desc.setGetterObject(JS_GetFunctionObject(getterObj));
if (psMatch->accessors.setter.selfHosted.funname) {
MOZ_ASSERT(flags & JSPROP_SETTER);
setterObj = JS::GetSelfHostedFunction(cx, psMatch->accessors.setter.selfHosted.funname, id, 0);
if (!setterObj)
return false;
desc.setSetterObject(JS_GetFunctionObject(setterObj));
}
} else {
desc.setGetter(JS_CAST_NATIVE_TO(psMatch->accessors.getter.native.op,
JSGetterOp));
desc.setSetter(JS_CAST_NATIVE_TO(psMatch->accessors.setter.native.op,
JSSetterOp));
}
desc.setAttributes(flags);
} else {
RootedValue v(cx);
if (!psMatch->getValue(cx, &v))
return false;
desc.value().set(v);
desc.setAttributes(flags & ~JSPROP_INTERNAL_USE_BIT);
}
// The generic Xray machinery only defines non-own properties on the holder.
// This is broken, and will be fixed at some point, but for now we need to
// cache the value explicitly. See the corresponding call to
// JS_GetPropertyById at the top of JSXrayTraits::resolveOwnProperty.
//
// Note also that the public-facing API here doesn't give us a way to
// pass along JITInfo. It's probably ok though, since Xrays are already
// pretty slow.
return JS_DefinePropertyById(cx, holder, id,
desc.value(),
// This particular descriptor, unlike most,
// actually stores JSNatives directly,
// since we just set it up. Do NOT pass
// JSPROP_PROPOP_ACCESSORS here!
desc.attributes(),
JS_PROPERTYOP_GETTER(desc.getter()),
JS_PROPERTYOP_SETTER(desc.setter())) &&
JS_GetOwnPropertyDescriptorById(cx, holder, id, desc);
}
return true;
}
static bool
ShouldResolveStaticProperties(JSProtoKey key)
{
// Don't try to resolve static properties on RegExp, because they
// have issues. In particular, some of them grab state off the
// global of the RegExp constructor that describes the last regexp
// evaluation in that global, which is not a useful thing to do
// over Xrays.
return key != JSProto_RegExp;
}
bool
JSXrayTraits::resolveOwnProperty(JSContext* cx, const Wrapper& jsWrapper,
HandleObject wrapper, HandleObject holder,
HandleId id,
MutableHandle<PropertyDescriptor> desc)
{
// Call the common code.
bool ok = XrayTraits::resolveOwnProperty(cx, jsWrapper, wrapper, holder,
id, desc);
if (!ok || desc.object())
return ok;
// The non-HasPrototypes semantics implemented by traditional Xrays are kind
// of broken with respect to |own|-ness and the holder. The common code
// muddles through by only checking the holder for non-|own| lookups, but
// that doesn't work for us. So we do an explicit holder check here, and hope
// that this mess gets fixed up soon.
if (!JS_GetOwnPropertyDescriptorById(cx, holder, id, desc))
return false;
if (desc.object()) {
desc.object().set(wrapper);
return true;
}
RootedObject target(cx, getTargetObject(wrapper));
JSProtoKey key = getProtoKey(holder);
if (!isPrototype(holder)) {
// For Object and Array instances, we expose some properties from the
// underlying object, but only after filtering them carefully.
//
// Note that, as far as JS observables go, Arrays are just Objects with
// a different prototype and a magic (own, non-configurable) |.length| that
// serves as a non-tight upper bound on |own| indexed properties. So while
// it's tempting to try to impose some sort of structure on what Arrays
// "should" look like over Xrays, the underlying object is squishy enough
// that it makes sense to just treat them like Objects for Xray purposes.
if (key == JSProto_Object || key == JSProto_Array) {
return getOwnPropertyFromWrapperIfSafe(cx, wrapper, id, desc);
} else if (IsTypedArrayKey(key)) {
if (IsArrayIndex(GetArrayIndexFromId(cx, id))) {
// WebExtensions can't use cloneInto(), so we just let them do
// the slow thing to maximize compatibility.
if (CompartmentPrivate::Get(CurrentGlobalOrNull(cx))->isWebExtensionContentScript) {
Rooted<PropertyDescriptor> innerDesc(cx);
{
JSAutoCompartment ac(cx, target);
if (!JS_GetOwnPropertyDescriptorById(cx, target, id, &innerDesc))
return false;
}
if (innerDesc.isDataDescriptor() && innerDesc.value().isNumber()) {
desc.setValue(innerDesc.value());
desc.object().set(wrapper);
}
return true;
} else {
JS_ReportErrorASCII(cx, "Accessing TypedArray data over Xrays is slow, and forbidden "
"in order to encourage performant code. To copy TypedArrays "
"across origin boundaries, consider using Components.utils.cloneInto().");
return false;
}
}
} else if (key == JSProto_Function) {
if (id == GetJSIDByIndex(cx, XPCJSContext::IDX_LENGTH)) {
FillPropertyDescriptor(desc, wrapper, JSPROP_PERMANENT | JSPROP_READONLY,
NumberValue(JS_GetFunctionArity(JS_GetObjectFunction(target))));
return true;
} else if (id == GetJSIDByIndex(cx, XPCJSContext::IDX_NAME)) {
RootedString fname(cx, JS_GetFunctionId(JS_GetObjectFunction(target)));
FillPropertyDescriptor(desc, wrapper, JSPROP_PERMANENT | JSPROP_READONLY,
fname ? StringValue(fname) : JS_GetEmptyStringValue(cx));
} else {
// Look for various static properties/methods and the
// 'prototype' property.
JSProtoKey standardConstructor = constructorFor(holder);
if (standardConstructor != JSProto_Null) {
// Handle the 'prototype' property to make
// xrayedGlobal.StandardClass.prototype work.
if (id == GetJSIDByIndex(cx, XPCJSContext::IDX_PROTOTYPE)) {
RootedObject standardProto(cx);
{
JSAutoCompartment ac(cx, target);
if (!JS_GetClassPrototype(cx, standardConstructor, &standardProto))
return false;
MOZ_ASSERT(standardProto);
}
if (!JS_WrapObject(cx, &standardProto))
return false;
FillPropertyDescriptor(desc, wrapper, JSPROP_PERMANENT | JSPROP_READONLY,
ObjectValue(*standardProto));
return true;
}
if (ShouldResolveStaticProperties(standardConstructor)) {
const js::Class* clasp = js::ProtoKeyToClass(standardConstructor);
MOZ_ASSERT(clasp->specDefined());
if (!TryResolvePropertyFromSpecs(cx, id, holder,
clasp->specConstructorFunctions(),
clasp->specConstructorProperties(), desc)) {
return false;
}
if (desc.object()) {
desc.object().set(wrapper);
return true;
}
}
}
}
} else if (IsErrorObjectKey(key)) {
// The useful state of error objects (except for .stack) is
// (unfortunately) represented as own data properties per-spec. This
// means that we can't have a a clean representation of the data
// (free from tampering) without doubling the slots of Error
// objects, which isn't great. So we forward these properties to the
// underlying object and then just censor any values with the wrong
// type. This limits the ability of content to do anything all that
// confusing.
bool isErrorIntProperty =
id == GetJSIDByIndex(cx, XPCJSContext::IDX_LINENUMBER) ||
id == GetJSIDByIndex(cx, XPCJSContext::IDX_COLUMNNUMBER);
bool isErrorStringProperty =
id == GetJSIDByIndex(cx, XPCJSContext::IDX_FILENAME) ||
id == GetJSIDByIndex(cx, XPCJSContext::IDX_MESSAGE);
if (isErrorIntProperty || isErrorStringProperty) {
RootedObject waiver(cx, wrapper);
if (!WrapperFactory::WaiveXrayAndWrap(cx, &waiver))
return false;
if (!JS_GetOwnPropertyDescriptorById(cx, waiver, id, desc))
return false;
bool valueMatchesType = (isErrorIntProperty && desc.value().isInt32()) ||
(isErrorStringProperty && desc.value().isString());
if (desc.hasGetterOrSetter() || !valueMatchesType)
FillPropertyDescriptor(desc, nullptr, 0, UndefinedValue());
return true;
}
} else if (key == JSProto_RegExp) {
if (id == GetJSIDByIndex(cx, XPCJSContext::IDX_LASTINDEX))
return getOwnPropertyFromWrapperIfSafe(cx, wrapper, id, desc);
}
// The rest of this function applies only to prototypes.
return true;
}
// Handle the 'constructor' property.
if (id == GetJSIDByIndex(cx, XPCJSContext::IDX_CONSTRUCTOR)) {
RootedObject constructor(cx);
{
JSAutoCompartment ac(cx, target);
if (!JS_GetClassObject(cx, key, &constructor))
return false;
}
if (!JS_WrapObject(cx, &constructor))
return false;
desc.object().set(wrapper);
desc.setAttributes(0);
desc.setGetter(nullptr);
desc.setSetter(nullptr);
desc.value().setObject(*constructor);
return true;
}
// Grab the JSClass. We require all Xrayable classes to have a ClassSpec.
const js::Class* clasp = js::GetObjectClass(target);
MOZ_ASSERT(clasp->specDefined());
// Indexed array properties are handled above, so we can just work with the
// class spec here.
if (!TryResolvePropertyFromSpecs(cx, id, holder,
clasp->specPrototypeFunctions(),
clasp->specPrototypeProperties(),
desc)) {
return false;
}
if (desc.object()) {
desc.object().set(wrapper);
}
return true;
}
bool
JSXrayTraits::delete_(JSContext* cx, HandleObject wrapper, HandleId id, ObjectOpResult& result)
{
RootedObject holder(cx, ensureHolder(cx, wrapper));
// If we're using Object Xrays, we allow callers to attempt to delete any
// property from the underlying object that they are able to resolve. Note
// that this deleting may fail if the property is non-configurable.
JSProtoKey key = getProtoKey(holder);
bool isObjectOrArrayInstance = (key == JSProto_Object || key == JSProto_Array) &&
!isPrototype(holder);
if (isObjectOrArrayInstance) {
RootedObject target(cx, getTargetObject(wrapper));
JSAutoCompartment ac(cx, target);
Rooted<PropertyDescriptor> desc(cx);
if (!getOwnPropertyFromTargetIfSafe(cx, target, wrapper, id, &desc))
return false;
if (desc.object())
return JS_DeletePropertyById(cx, target, id, result);
}
return result.succeed();
}
bool
JSXrayTraits::defineProperty(JSContext* cx, HandleObject wrapper, HandleId id,
Handle<PropertyDescriptor> desc,
Handle<PropertyDescriptor> existingDesc,
ObjectOpResult& result,
bool* defined)
{
*defined = false;
RootedObject holder(cx, ensureHolder(cx, wrapper));
if (!holder)
return false;
// Object and Array instances are special. For those cases, we forward property
// definitions to the underlying object if the following conditions are met:
// * The property being defined is a value-prop.
// * The property being defined is either a primitive or subsumed by the target.
// * As seen from the Xray, any existing property that we would overwrite is an
// |own| value-prop.
//
// To avoid confusion, we disallow expandos on Object and Array instances, and
// therefore raise an exception here if the above conditions aren't met.
JSProtoKey key = getProtoKey(holder);
bool isInstance = !isPrototype(holder);
bool isObjectOrArray = (key == JSProto_Object || key == JSProto_Array);
if (isObjectOrArray && isInstance) {
RootedObject target(cx, getTargetObject(wrapper));
if (desc.hasGetterOrSetter()) {
JS_ReportErrorASCII(cx, "Not allowed to define accessor property on [Object] or [Array] XrayWrapper");
return false;
}
if (desc.value().isObject() &&
!AccessCheck::subsumes(target, js::UncheckedUnwrap(&desc.value().toObject())))
{
JS_ReportErrorASCII(cx, "Not allowed to define cross-origin object as property on [Object] or [Array] XrayWrapper");
return false;
}
if (existingDesc.hasGetterOrSetter()) {
JS_ReportErrorASCII(cx, "Not allowed to overwrite accessor property on [Object] or [Array] XrayWrapper");
return false;
}
if (existingDesc.object() && existingDesc.object() != wrapper) {
JS_ReportErrorASCII(cx, "Not allowed to shadow non-own Xray-resolved property on [Object] or [Array] XrayWrapper");
return false;
}
Rooted<PropertyDescriptor> wrappedDesc(cx, desc);
JSAutoCompartment ac(cx, target);
if (!JS_WrapPropertyDescriptor(cx, &wrappedDesc) ||
!JS_DefinePropertyById(cx, target, id, wrappedDesc, result))
{
return false;
}
*defined = true;
return true;
}
// For WebExtensions content scripts, we forward the definition of indexed properties. By
// validating that the key and value are both numbers, we can avoid doing any wrapping.
if (isInstance && IsTypedArrayKey(key) &&
CompartmentPrivate::Get(JS::CurrentGlobalOrNull(cx))->isWebExtensionContentScript &&
desc.isDataDescriptor() && (desc.value().isNumber() || desc.value().isUndefined()) &&
IsArrayIndex(GetArrayIndexFromId(cx, id)))
{
RootedObject target(cx, getTargetObject(wrapper));
JSAutoCompartment ac(cx, target);
if (!JS_DefinePropertyById(cx, target, id, desc, result))
return false;
*defined = true;
return true;
}
return true;
}
static bool
MaybeAppend(jsid id, unsigned flags, AutoIdVector& props)
{
MOZ_ASSERT(!(flags & JSITER_SYMBOLSONLY));
if (!(flags & JSITER_SYMBOLS) && JSID_IS_SYMBOL(id))
return true;
return props.append(id);
}
// Append the names from the given function and property specs to props.
static bool
AppendNamesFromFunctionAndPropertySpecs(JSContext* cx,
const JSFunctionSpec* fs,
const JSPropertySpec* ps,
unsigned flags,
AutoIdVector& props)
{
// Convert the method and property names to jsids and pass them to the caller.
for ( ; fs && fs->name; ++fs) {
jsid id;
if (!PropertySpecNameToPermanentId(cx, fs->name, &id))
return false;
if (!MaybeAppend(id, flags, props))
return false;
}
for ( ; ps && ps->name; ++ps) {
jsid id;
if (!PropertySpecNameToPermanentId(cx, ps->name, &id))
return false;
if (!MaybeAppend(id, flags, props))
return false;
}
return true;
}
bool
JSXrayTraits::enumerateNames(JSContext* cx, HandleObject wrapper, unsigned flags,
AutoIdVector& props)
{
RootedObject target(cx, getTargetObject(wrapper));
RootedObject holder(cx, ensureHolder(cx, wrapper));
if (!holder)
return false;
JSProtoKey key = getProtoKey(holder);
if (!isPrototype(holder)) {
// For Object and Array instances, we expose some properties from the underlying
// object, but only after filtering them carefully.
if (key == JSProto_Object || key == JSProto_Array) {
MOZ_ASSERT(props.empty());
{
JSAutoCompartment ac(cx, target);
AutoIdVector targetProps(cx);
if (!js::GetPropertyKeys(cx, target, flags | JSITER_OWNONLY, &targetProps))
return false;
// Loop over the properties, and only pass along the ones that
// we determine to be safe.
if (!props.reserve(targetProps.length()))
return false;
for (size_t i = 0; i < targetProps.length(); ++i) {
Rooted<PropertyDescriptor> desc(cx);
RootedId id(cx, targetProps[i]);
if (!getOwnPropertyFromTargetIfSafe(cx, target, wrapper, id, &desc))
return false;
if (desc.object())
props.infallibleAppend(id);
}
}
return true;
} else if (IsTypedArrayKey(key)) {
uint32_t length = JS_GetTypedArrayLength(target);
// TypedArrays enumerate every indexed property in range, but
// |length| is a getter that lives on the proto, like it should be.
if (!props.reserve(length))
return false;
for (int32_t i = 0; i <= int32_t(length - 1); ++i)
props.infallibleAppend(INT_TO_JSID(i));
} else if (key == JSProto_Function) {
if (!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_LENGTH)))
return false;
if (!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_NAME)))
return false;
// Handle the .prototype property and static properties on standard
// constructors.
JSProtoKey standardConstructor = constructorFor(holder);
if (standardConstructor != JSProto_Null) {
if (!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_PROTOTYPE)))
return false;
if (ShouldResolveStaticProperties(standardConstructor)) {
const js::Class* clasp = js::ProtoKeyToClass(standardConstructor);
MOZ_ASSERT(clasp->specDefined());
if (!AppendNamesFromFunctionAndPropertySpecs(
cx, clasp->specConstructorFunctions(),
clasp->specConstructorProperties(), flags, props)) {
return false;
}
}
}
} else if (IsErrorObjectKey(key)) {
if (!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_FILENAME)) ||
!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_LINENUMBER)) ||
!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_COLUMNNUMBER)) ||
!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_STACK)) ||
!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_MESSAGE)))
{
return false;
}
} else if (key == JSProto_RegExp) {
if (!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_LASTINDEX)))
return false;
}
// The rest of this function applies only to prototypes.
return true;
}
// Add the 'constructor' property.
if (!props.append(GetJSIDByIndex(cx, XPCJSContext::IDX_CONSTRUCTOR)))
return false;
// Grab the JSClass. We require all Xrayable classes to have a ClassSpec.
const js::Class* clasp = js::GetObjectClass(target);
MOZ_ASSERT(clasp->specDefined());
return AppendNamesFromFunctionAndPropertySpecs(
cx, clasp->specPrototypeFunctions(),
clasp->specPrototypeProperties(), flags, props);
}
bool
JSXrayTraits::construct(JSContext* cx, HandleObject wrapper,
const JS::CallArgs& args, const js::Wrapper& baseInstance)
{
JSXrayTraits& self = JSXrayTraits::singleton;
JS::RootedObject holder(cx, self.ensureHolder(cx, wrapper));
if (self.getProtoKey(holder) == JSProto_Function) {
JSProtoKey standardConstructor = constructorFor(holder);
if (standardConstructor == JSProto_Null)
return baseInstance.construct(cx, wrapper, args);
const js::Class* clasp = js::ProtoKeyToClass(standardConstructor);
MOZ_ASSERT(clasp);
if (!(clasp->flags & JSCLASS_HAS_XRAYED_CONSTRUCTOR))
return baseInstance.construct(cx, wrapper, args);
// If the JSCLASS_HAS_XRAYED_CONSTRUCTOR flag is set on the Class,
// we don't use the constructor at hand. Instead, we retrieve the
// equivalent standard constructor in the xray compartment and run
// it in that compartment. The newTarget isn't unwrapped, and the
// constructor has to be able to detect and handle this situation.
// See the comments in js/public/Class.h and PromiseConstructor for
// details and an example.
RootedObject ctor(cx);
if (!JS_GetClassObject(cx, standardConstructor, &ctor))
return false;
RootedValue ctorVal(cx, ObjectValue(*ctor));
HandleValueArray vals(args);
RootedObject result(cx);
if (!JS::Construct(cx, ctorVal, wrapper, vals, &result))
return false;
AssertSameCompartment(cx, result);
args.rval().setObject(*result);
return true;
}
JS::RootedValue v(cx, JS::ObjectValue(*wrapper));
js::ReportIsNotFunction(cx, v);
return false;
}
JSObject*
JSXrayTraits::createHolder(JSContext* cx, JSObject* wrapper)
{
RootedObject target(cx, getTargetObject(wrapper));
RootedObject holder(cx, JS_NewObjectWithGivenProto(cx, &HolderClass,
nullptr));
if (!holder)
return nullptr;
// Compute information about the target.
bool isPrototype = false;
JSProtoKey key = IdentifyStandardInstance(target);
if (key == JSProto_Null) {
isPrototype = true;
key = IdentifyStandardPrototype(target);
}
MOZ_ASSERT(key != JSProto_Null);
// Store it on the holder.
RootedValue v(cx);
v.setNumber(static_cast<uint32_t>(key));
js::SetReservedSlot(holder, SLOT_PROTOKEY, v);
v.setBoolean(isPrototype);
js::SetReservedSlot(holder, SLOT_ISPROTOTYPE, v);
// If this is a function, also compute whether it serves as a constructor
// for a standard class.
if (key == JSProto_Function) {
v.setNumber(static_cast<uint32_t>(IdentifyStandardConstructor(target)));
js::SetReservedSlot(holder, SLOT_CONSTRUCTOR_FOR, v);
}
return holder;
}
XPCWrappedNativeXrayTraits XPCWrappedNativeXrayTraits::singleton;
DOMXrayTraits DOMXrayTraits::singleton;
JSXrayTraits JSXrayTraits::singleton;
OpaqueXrayTraits OpaqueXrayTraits::singleton;
XrayTraits*
GetXrayTraits(JSObject* obj)
{
switch (GetXrayType(obj)) {
case XrayForDOMObject:
return &DOMXrayTraits::singleton;
case XrayForWrappedNative:
return &XPCWrappedNativeXrayTraits::singleton;
case XrayForJSObject:
return &JSXrayTraits::singleton;
case XrayForOpaqueObject:
return &OpaqueXrayTraits::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.
*/
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);
}
const JSClassOps XrayExpandoObjectClassOps = {
nullptr, nullptr, nullptr, nullptr,
nullptr, nullptr, nullptr, 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);
// 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.
if (!consumerOrigin->Equals(o))
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;
}
bool
XrayTraits::getExpandoObjectInternal(JSContext* cx, HandleObject target,
nsIPrincipal* origin,
JSObject* exclusiveGlobalArg,
MutableHandleObject expandoObject)
{
MOZ_ASSERT(!JS_IsExceptionPending(cx));
expandoObject.set(nullptr);
// 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))
return false;
// Iterate through the chain, looking for a same-origin object.
RootedObject head(cx, getExpandoChain(target));
while (head) {
if (expandoObjectMatchesConsumer(cx, head, origin, exclusiveGlobal)) {
expandoObject.set(head);
return true;
}
head = JS_GetReservedSlot(head, JSSLOT_EXPANDO_NEXT).toObjectOrNull();
}
// Not found.
return true;
}
bool
XrayTraits::getExpandoObject(JSContext* cx, HandleObject target, HandleObject consumer,
MutableHandleObject expandoObject)
{
JSObject* consumerGlobal = js::GetGlobalForObjectCrossCompartment(consumer);
bool isSandbox = !strcmp(js::GetObjectJSClass(consumerGlobal)->name, "Sandbox");
return getExpandoObjectInternal(cx, target, ObjectPrincipal(consumer),
isSandbox ? consumerGlobal : nullptr,
expandoObject);
}
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.
#ifdef DEBUG
{
RootedObject existingExpandoObject(cx);
if (getExpandoObjectInternal(cx, target, origin, exclusiveGlobal, &existingExpandoObject))
MOZ_ASSERT(!existingExpandoObject);
else
JS_ClearPendingException(cx);
}
#endif
// Create the expando object.
const JSClass* expandoClass = getExpandoClass(cx, target);
MOZ_ASSERT(!strcmp(expandoClass->name, "XrayExpandoObject"));
RootedObject expandoObject(cx,
JS_NewObjectWithGivenProto(cx, expandoClass, nullptr));
if (!expandoObject)
return nullptr;
// AddRef and store the principal.
NS_ADDREF(origin);
JS_SetReservedSlot(expandoObject, JSSLOT_EXPANDO_ORIGIN, JS::PrivateValue(origin));
// Note the exclusive global, if any.
JS_SetReservedSlot(expandoObject, JSSLOT_EXPANDO_EXCLUSIVE_GLOBAL,
ObjectOrNullValue(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, ObjectOrNullValue(chain));
setExpandoChain(cx, target, expandoObject);
return expandoObject;
}
JSObject*
XrayTraits::ensureExpandoObject(JSContext* cx, HandleObject wrapper,
HandleObject target)
{
// Expando objects live in the target compartment.
JSAutoCompartment ac(cx, target);
RootedObject expandoObject(cx);
if (!getExpandoObject(cx, target, wrapper, &expandoObject))
return nullptr;
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))
return nullptr;
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));
#ifdef DEBUG
// When this is called from dom::ReparentWrapper() there will be no native
// set for |dst|. Eventually it will be set to that of |src|. This will
// prevent attachExpandoObject() from preserving the wrapper, but this is
// not a problem because in this case the wrapper will already have been
// preserved when expandos were originally added to |src|. Assert the
// wrapper for |src| has been preserved if it has expandos set.
if (oldHead) {
nsISupports* identity = mozilla::dom::UnwrapDOMObjectToISupports(src);
if (identity) {
nsWrapperCache* cache = nullptr;
CallQueryInterface(identity, &cache);
MOZ_ASSERT_IF(cache, cache->PreservingWrapper());
}
}
#endif
while (oldHead) {
RootedObject exclusive(cx, JS_GetReservedSlot(oldHead,
JSSLOT_EXPANDO_EXCLUSIVE_GLOBAL)
.toObjectOrNull());
if (!JS_WrapObject(cx, &exclusive))
return false;
RootedObject newHead(cx, attachExpandoObject(cx, dst, GetExpandoObjectPrincipal(oldHead),
exclusive));
if (!JS_CopyPropertiesFrom(cx, newHead, oldHead))
return false;
oldHead = JS_GetReservedSlot(oldHead, JSSLOT_EXPANDO_NEXT).toObjectOrNull();
}
return true;
}
void
ClearXrayExpandoSlots(JSObject* target, size_t slotIndex)
{
if (!NS_IsMainThread()) {
// No Xrays
return;
}
MOZ_ASSERT(GetXrayTraits(target) == &DOMXrayTraits::singleton);
RootingContext* rootingCx = RootingCx();
RootedObject rootedTarget(rootingCx, target);
RootedObject head(rootingCx,
DOMXrayTraits::singleton.getExpandoChain(rootedTarget));
while (head) {
MOZ_ASSERT(JSCLASS_RESERVED_SLOTS(js::GetObjectClass(head)) > slotIndex);
js::SetReservedSlot(head, slotIndex, UndefinedValue());
head = js::GetReservedSlot(head, JSSLOT_EXPANDO_NEXT).toObjectOrNull();
}
}
JSObject*
EnsureXrayExpandoObject(JSContext* cx, JS::HandleObject wrapper)
{
MOZ_ASSERT(NS_IsMainThread());
MOZ_ASSERT(GetXrayTraits(wrapper) == &DOMXrayTraits::singleton);
MOZ_ASSERT(IsXrayWrapper(wrapper));
RootedObject target(cx, DOMXrayTraits::singleton.getTargetObject(wrapper));
return DOMXrayTraits::singleton.ensureExpandoObject(cx, wrapper, target);
}
const JSClass*
XrayTraits::getExpandoClass(JSContext* cx, HandleObject target) const
{
return &DefaultXrayExpandoObjectClass;
}
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);
}
} // namespace XrayUtils
static JSObject*
GetHolder(JSObject* obj)
{
return &js::GetProxyExtra(obj, 0).toObject();
}
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;
}
namespace XrayUtils {
bool
IsXPCWNHolderClass(const JSClass* clasp)
{
return clasp == &XPCWrappedNativeXrayTraits::HolderClass;
}
} // namespace XrayUtils
static nsGlobalWindow*
AsWindow(JSContext* cx, JSObject* wrapper)
{
// We want to use our target object here, since we don't want to be
// doing a security check while unwrapping.
JSObject* target = XrayTraits::getTargetObject(wrapper);
return WindowOrNull(target);
}
static bool
IsWindow(JSContext* cx, JSObject* wrapper)
{
return !!AsWindow(cx, wrapper);
}
void
XPCWrappedNativeXrayTraits::preserveWrapper(JSObject* target)
{
XPCWrappedNative* wn = XPCWrappedNative::Get(target);
RefPtr<nsXPCClassInfo> ci;
CallQueryInterface(wn->Native(), getter_AddRefs(ci));
if (ci)
ci->PreserveWrapper(wn->Native());
}
static bool
XrayToString(JSContext* cx, unsigned argc, JS::Value* vp);
bool
XPCWrappedNativeXrayTraits::resolveNativeProperty(JSContext* cx, HandleObject wrapper,
HandleObject holder, HandleId id,
MutableHandle<PropertyDescriptor> desc)
{
MOZ_ASSERT(js::GetObjectJSClass(holder) == &HolderClass);
desc.object().set(nullptr);
// This will do verification and the method lookup for us.
RootedObject target(cx, getTargetObject(wrapper));
XPCCallContext ccx(cx, target, nullptr, id);
// There are no native numeric (or symbol-keyed) properties, so we can
// shortcut here. We will not find the property.
if (!JSID_IS_STRING(id))
return true;
XPCNativeInterface* iface;
XPCNativeMember* member;
XPCWrappedNative* wn = getWN(wrapper);
if (ccx.GetWrapper() != wn || !wn->IsValid()) {
return true;
}
if (!(iface = ccx.GetInterface()) || !(member = ccx.GetMember())) {
if (id != nsXPConnect::GetContextInstance()->GetStringID(XPCJSContext::IDX_TO_STRING))
return true;
JSFunction* toString = JS_NewFunction(cx, XrayToString, 0, 0, "toString");
if (!toString)
return false;
FillPropertyDescriptor(desc, wrapper, 0,
ObjectValue(*JS_GetFunctionObject(toString)));
return JS_DefinePropertyById(cx, holder, id, desc) &&
JS_GetOwnPropertyDescriptorById(cx, holder, id, desc);
}
desc.object().set(holder);
desc.setAttributes(JSPROP_ENUMERATE);
desc.setGetter(nullptr);
desc.setSetter(nullptr);
desc.value().setUndefined();
RootedValue fval(cx, JS::UndefinedValue());
if (member->IsConstant()) {
if (!member->GetConstantValue(ccx, iface, desc.value().address())) {
JS_ReportErrorASCII(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())) {
JS_ReportErrorASCII(cx, "Failed to clone function object for native getter/setter");
return false;
}
unsigned attrs = desc.attributes();
attrs |= JSPROP_GETTER;
if (member->IsWritableAttribute())
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.
attrs |= JSPROP_SHARED;
desc.setAttributes(attrs);
} else {
// This is a method. Clone a function for it.
if (!member->NewFunctionObject(ccx, iface, wrapper, desc.value().address())) {
JS_ReportErrorASCII(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 null out the getter and
// setter here explicitly.
desc.setGetter(nullptr);
desc.setSetter(nullptr);
}
if (!JS_WrapValue(cx, desc.value()) || !JS_WrapValue(cx, &fval))
return false;
if (desc.hasGetterObject())
desc.setGetterObject(&fval.toObject());
if (desc.hasSetterObject())
desc.setSetterObject(&fval.toObject());
return JS_DefinePropertyById(cx, holder, id, desc);
}
static bool
wrappedJSObject_getter(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
if (!args.thisv().isObject()) {
JS_ReportErrorASCII(cx, "This value not an object");
return false;
}
RootedObject wrapper(cx, &args.thisv().toObject());
if (!IsWrapper(wrapper) || !WrapperFactory::IsXrayWrapper(wrapper) ||
!WrapperFactory::AllowWaiver(wrapper)) {
JS_ReportErrorASCII(cx, "Unexpected object");
return false;
}
args.rval().setObject(*wrapper);
return WrapperFactory::WaiveXrayAndWrap(cx, args.rval());
}
bool
XrayTraits::resolveOwnProperty(JSContext* cx, const Wrapper& jsWrapper,
HandleObject wrapper, HandleObject holder, HandleId id,
MutableHandle<PropertyDescriptor> desc)
{
desc.object().set(nullptr);
RootedObject target(cx, getTargetObject(wrapper));
RootedObject expando(cx);
if (!getExpandoObject(cx, target, wrapper, &expando))
return false;
// Check for expando properties first. Note that the expando object lives
// in the target compartment.
bool found = false;
if (expando) {
JSAutoCompartment ac(cx, expando);
if (!JS_GetOwnPropertyDescriptorById(cx, expando, id, desc))
return false;
found = !!desc.object();
}
// Next, check for ES builtins.
if (!found && JS_IsGlobalObject(target)) {
JSProtoKey key = JS_IdToProtoKey(cx, id);
JSAutoCompartment ac(cx, target);
if (key != JSProto_Null) {
MOZ_ASSERT(key < JSProto_LIMIT);
RootedObject constructor(cx);
if (!JS_GetClassObject(cx, key, &constructor))
return false;
MOZ_ASSERT(constructor);
desc.value().set(ObjectValue(*constructor));
found = true;
} else if (id == GetJSIDByIndex(cx, XPCJSContext::IDX_EVAL)) {
RootedObject eval(cx);
if (!js::GetOriginalEval(cx, target, &eval))
return false;
desc.value().set(ObjectValue(*eval));
found = true;
}
}
if (found) {
if (!JS_WrapPropertyDescriptor(cx, desc))
return false;
// Pretend the property lives on the wrapper.
desc.object().set(wrapper);
return true;
}
// Handle .wrappedJSObject for subsuming callers. This should move once we
// sort out own-ness for the holder.
if (id == GetJSIDByIndex(cx, XPCJSContext::IDX_WRAPPED_JSOBJECT) &&
WrapperFactory::AllowWaiver(wrapper))
{
if (!JS_AlreadyHasOwnPropertyById(cx, holder, id, &found))
return false;
if (!found && !JS_DefinePropertyById(cx, holder, id, UndefinedHandleValue,
JSPROP_ENUMERATE | JSPROP_SHARED,
wrappedJSObject_getter)) {
return false;
}
if (!JS_GetOwnPropertyDescriptorById(cx, holder, id, desc))
return false;
desc.object().set(wrapper);
return true;
}
return true;
}
bool
XPCWrappedNativeXrayTraits::resolveOwnProperty(JSContext* cx, const Wrapper& jsWrapper,
HandleObject wrapper, HandleObject holder,
HandleId id,
MutableHandle<PropertyDescriptor> desc)
{
// Call the common code.
bool ok = XrayTraits::resolveOwnProperty(cx, jsWrapper, wrapper, holder,
id, desc);
if (!ok || desc.object())
return ok;
// 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));
return JS_GetOwnPropertyDescriptorById(cx, holder, id, desc);
}
bool
XPCWrappedNativeXrayTraits::enumerateNames(JSContext* cx, HandleObject wrapper, unsigned flags,
AutoIdVector& props)
{
// 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::GetPropertyKeys(cx, target, flags, &wnProps))
return false;
}
// Go through the properties we found on the underlying object and see if
// they appear on the XrayWrapper. If it throws (which may happen if the
// wrapper is a SecurityWrapper), just clear the exception and move on.
MOZ_ASSERT(!JS_IsExceptionPending(cx));
if (!props.reserve(wnProps.length()))
return false;
for (size_t n = 0; n < wnProps.length(); ++n) {
RootedId id(cx, wnProps[n]);
bool hasProp;
if (JS_HasPropertyById(cx, wrapper, id, &hasProp) && hasProp)
props.infallibleAppend(id);
JS_ClearPendingException(cx);
}
return true;
}
JSObject*
XPCWrappedNativeXrayTraits::createHolder(JSContext* cx, JSObject* wrapper)
{
return JS_NewObjectWithGivenProto(cx, &HolderClass, nullptr);
}
bool
XPCWrappedNativeXrayTraits::call(JSContext* cx, HandleObject wrapper,
const JS::CallArgs& args,
const js::Wrapper& baseInstance)
{
// Run the call hook of the wrapped native.
XPCWrappedNative* wn = getWN(wrapper);
if (NATIVE_HAS_FLAG(wn, WantCall)) {
XPCCallContext ccx(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,
const js::Wrapper& baseInstance)
{
// Run the construct hook of the wrapped native.
XPCWrappedNative* wn = getWN(wrapper);
if (NATIVE_HAS_FLAG(wn, WantConstruct)) {
XPCCallContext ccx(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::resolveOwnProperty(JSContext* cx, const Wrapper& jsWrapper, HandleObject wrapper,
HandleObject holder, HandleId id,
MutableHandle<PropertyDescriptor> desc)
{
// Call the common code.
bool ok = XrayTraits::resolveOwnProperty(cx, jsWrapper, wrapper, holder, id, desc);
if (!ok || desc.object())
return ok;
// Check for indexed access on a window.
uint32_t index = GetArrayIndexFromId(cx, id);
if (IsArrayIndex(index)) {
nsGlobalWindow* win = AsWindow(cx, wrapper);
// Note: As() unwraps outer windows to get to the inner window.
if (win) {
nsCOMPtr<nsPIDOMWindowOuter> subframe = win->IndexedGetter(index);
if (subframe) {
subframe->EnsureInnerWindow();
nsGlobalWindow* global = nsGlobalWindow::Cast(subframe);
JSObject* obj = global->FastGetGlobalJSObject();
if (MOZ_UNLIKELY(!obj)) {
// It's gone?
return xpc::Throw(cx, NS_ERROR_FAILURE);
}
ExposeObjectToActiveJS(obj);
desc.value().setObject(*obj);
FillPropertyDescriptor(desc, wrapper, true);
return JS_WrapPropertyDescriptor(cx, desc);
}
}
}
if (!JS_GetOwnPropertyDescriptorById(cx, holder, id, desc))
return false;
if (desc.object()) {
desc.object().set(wrapper);
return true;
}
RootedObject obj(cx, getTargetObject(wrapper));
bool cacheOnHolder;
if (!XrayResolveOwnProperty(cx, wrapper, obj, id, desc, cacheOnHolder))
return false;
MOZ_ASSERT(!desc.object() || desc.object() == wrapper, "What did we resolve this on?");
if (!desc.object() || !cacheOnHolder)
return true;
return JS_DefinePropertyById(cx, holder, id, desc) &&
JS_GetOwnPropertyDescriptorById(cx, holder, id, desc);
}
bool
DOMXrayTraits::delete_(JSContext* cx, JS::HandleObject wrapper,
JS::HandleId id, JS::ObjectOpResult& result)
{
RootedObject target(cx, getTargetObject(wrapper));
return XrayDeleteNamedProperty(cx, wrapper, target, id, result);
}
bool
DOMXrayTraits::defineProperty(JSContext* cx, HandleObject wrapper, HandleId id,
Handle<PropertyDescriptor> desc,
Handle<PropertyDescriptor> existingDesc,
JS::ObjectOpResult& result, bool* defined)
{
// 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.
if (IsWindow(cx, wrapper)) {
if (IsArrayIndex(GetArrayIndexFromId(cx, id))) {
*defined = true;
return result.succeed();
}
}
JS::Rooted<JSObject*> obj(cx, getTargetObject(wrapper));
return XrayDefineProperty(cx, wrapper, obj, id, desc, result, defined);
}
bool
DOMXrayTraits::enumerateNames(JSContext* cx, HandleObject wrapper, unsigned flags,
AutoIdVector& props)
{
JS::Rooted<JSObject*> obj(cx, getTargetObject(wrapper));
return XrayOwnPropertyKeys(cx, wrapper, obj, flags, props);
}
bool
DOMXrayTraits::call(JSContext* cx, HandleObject wrapper,
const JS::CallArgs& args, const js::Wrapper& baseInstance)
{
RootedObject obj(cx, getTargetObject(wrapper));
const 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 (JSNative call = clasp->getCall()) {
// call it on the Xray compartment
if (!call(cx, args.length(), args.base()))
return false;
} else {
RootedValue v(cx, ObjectValue(*wrapper));
js::ReportIsNotFunction(cx, v);
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());
}
bool
DOMXrayTraits::construct(JSContext* cx, HandleObject wrapper,
const JS::CallArgs& args, const js::Wrapper& baseInstance)
{
RootedObject obj(cx, getTargetObject(wrapper));
MOZ_ASSERT(mozilla::dom::HasConstructor(obj));
const js::Class* clasp = js::GetObjectClass(obj);
// See comments in DOMXrayTraits::call() explaining what's going on here.
if (clasp->flags & JSCLASS_IS_DOMIFACEANDPROTOJSCLASS) {
if (JSNative construct = clasp->getConstruct()) {
if (!construct(cx, args.length(), args.base()))
return false;
} else {
RootedValue v(cx, ObjectValue(*wrapper));
js::ReportIsNotFunction(cx, v);
return false;
}
} else {
if (!baseInstance.construct(cx, wrapper, args))
return false;
}
if (!args.rval().isObject() || !JS_WrapValue(cx, args.rval()))
return false;
return true;
}
bool
DOMXrayTraits::getPrototype(JSContext* cx, JS::HandleObject wrapper,
JS::HandleObject target,
JS::MutableHandleObject protop)
{
return mozilla::dom::XrayGetNativeProto(cx, target, protop);
}
void
DOMXrayTraits::preserveWrapper(JSObject* target)
{
nsISupports* identity = mozilla::dom::UnwrapDOMObjectToISupports(target);
if (!identity)
return;
nsWrapperCache* cache = nullptr;
CallQueryInterface(identity, &cache);
if (cache)
cache->PreserveWrapper(identity);
}
JSObject*
DOMXrayTraits::createHolder(JSContext* cx, JSObject* wrapper)
{
return JS_NewObjectWithGivenProto(cx, nullptr, nullptr);
}
const JSClass*
DOMXrayTraits::getExpandoClass(JSContext* cx, HandleObject target) const
{
return XrayGetExpandoClass(cx, target);
}
namespace XrayUtils {
JSObject*
GetNativePropertiesObject(JSContext* cx, JSObject* wrapper)
{
MOZ_ASSERT(js::IsWrapper(wrapper) && WrapperFactory::IsXrayWrapper(wrapper),
"bad object passed in");
JSObject* holder = GetHolder(wrapper);
MOZ_ASSERT(holder, "uninitialized wrapper being used?");
return holder;
}
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);
const Wrapper* handler = Wrapper::wrapperHandler(wrapper);
// Try resolveOwnProperty.
if (!traits->resolveOwnProperty(cx, *handler, wrapper, holder, id, &desc))
return false;
if (desc.object()) {
*hasProp = true;
return true;
}
// Try the holder.
bool 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))
return false;
*hasProp = !!desc.object();
return true;
}
} // namespace XrayUtils
static bool
XrayToString(JSContext* cx, unsigned argc, Value* vp)
{
CallArgs args = CallArgsFromVp(argc, vp);
if (!args.thisv().isObject()) {
JS_ReportErrorASCII(cx, "XrayToString called on an incompatible object");
return false;
}
RootedObject wrapper(cx, &args.thisv().toObject());
if (!wrapper)
return false;
if (IsWrapper(wrapper) &&
GetProxyHandler(wrapper) == &sandboxCallableProxyHandler) {
wrapper = xpc::SandboxCallableProxyHandler::wrappedObject(wrapper);
}
if (!IsWrapper(wrapper) || !WrapperFactory::IsXrayWrapper(wrapper)) {
JS_ReportErrorASCII(cx, "XrayToString called on an incompatible object");
return false;
}
RootedObject obj(cx, XrayTraits::getTargetObject(wrapper));
if (GetXrayType(obj) != XrayForWrappedNative) {
JS_ReportErrorASCII(cx, "XrayToString called on an incompatible object");
return false;
}
static const char start[] = "[object XrayWrapper ";
static const char end[] = "]";
nsAutoString result;
result.AppendASCII(start);
XPCCallContext ccx(cx, obj);
XPCWrappedNative* wn = XPCWrappedNativeXrayTraits::getWN(wrapper);
char* wrapperStr = wn->ToString();
if (!wrapperStr) {
JS_ReportOutOfMemory(cx);
return false;
}
result.AppendASCII(wrapperStr);
JS_smprintf_free(wrapperStr);
result.AppendASCII(end);
JSString* str = JS_NewUCStringCopyN(cx, result.get(), result.Length());
if (!str)
return false;
args.rval().setString(str);
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::preventExtensions(JSContext* cx, HandleObject wrapper,
ObjectOpResult& result) const
{
// 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 failure here.
return result.failCantPreventExtensions();
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::isExtensible(JSContext* cx, JS::Handle<JSObject*> wrapper,
bool* extensible) const
{
// See above.
*extensible = true;
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::getPropertyDescriptor(JSContext* cx, HandleObject wrapper, HandleId id,
JS::MutableHandle<PropertyDescriptor> desc)
const
{
assertEnteredPolicy(cx, wrapper, id, BaseProxyHandler::GET | BaseProxyHandler::SET |
BaseProxyHandler::GET_PROPERTY_DESCRIPTOR);
RootedObject holder(cx, Traits::singleton.ensureHolder(cx, wrapper));
if (!holder)
return false;
// 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 Resolve, 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))
return false;
// Check the holder.
if (!desc.object() && !JS_GetOwnPropertyDescriptorById(cx, holder, id, desc))
return false;
if (desc.object()) {
desc.object().set(wrapper);
return true;
}
// Nothing in the cache. Call through, and cache the result.
if (!Traits::singleton.resolveNativeProperty(cx, wrapper, holder, id, desc))
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 = nullptr;
if (!desc.object() &&
JSID_IS_STRING(id) &&
(win = AsWindow(cx, wrapper)))
{
nsAutoJSString name;
if (!name.init(cx, JSID_TO_STRING(id)))
return false;
if (nsCOMPtr<nsPIDOMWindowOuter> childDOMWin = win->GetChildWindow(name)) {
auto* cwin = nsGlobalWindow::Cast(childDOMWin);
JSObject* childObj = cwin->FastGetGlobalJSObject();
if (MOZ_UNLIKELY(!childObj))
return xpc::Throw(cx, NS_ERROR_FAILURE);
ExposeObjectToActiveJS(childObj);
FillPropertyDescriptor(desc, wrapper, ObjectValue(*childObj),
/* readOnly = */ true);
return JS_WrapPropertyDescriptor(cx, desc);
}
}
// If we still have nothing, we're done.
if (!desc.object())
return true;
if (!JS_DefinePropertyById(cx, holder, id, desc) ||
!JS_GetOwnPropertyDescriptorById(cx, holder, id, desc))
{
return false;
}
MOZ_ASSERT(desc.object());
desc.object().set(wrapper);
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::getOwnPropertyDescriptor(JSContext* cx, HandleObject wrapper, HandleId id,
JS::MutableHandle<PropertyDescriptor> desc)
const
{
assertEnteredPolicy(cx, wrapper, id, BaseProxyHandler::GET | BaseProxyHandler::SET |
BaseProxyHandler::GET_PROPERTY_DESCRIPTOR);
RootedObject holder(cx, Traits::singleton.ensureHolder(cx, wrapper));
if (!Traits::singleton.resolveOwnProperty(cx, *this, wrapper, holder, id, desc))
return false;
if (desc.object())
desc.object().set(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, const 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) && orig->getter &&
WrapperFactory::HasWaiveXrayFlag(JS_FUNC_TO_DATA_PTR(JSObject*, orig->getter));
bool setterWasWaived =
(orig->attrs & JSPROP_SETTER) && orig->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, Handle<PropertyDescriptor> desc,
ObjectOpResult& result) const
{
assertEnteredPolicy(cx, wrapper, id, BaseProxyHandler::SET);
Rooted<PropertyDescriptor> existing_desc(cx);
if (!JS_GetPropertyDescriptorById(cx, wrapper, id, &existing_desc))
return false;
// Note that the check here is intended to differentiate between own and
// non-own properties, since the above lookup is not limited to own
// properties. At present, this may not always do the right thing because
// we often lie (sloppily) about where we found properties and set
// desc.object() to |wrapper|. Once we fully fix our Xray prototype semantics,
// this should work as intended.
if (existing_desc.object() == wrapper && !existing_desc.configurable()) {
// We have a non-configurable property. See if the caller is trying to
// re-configure it in any way other than making it non-writable.
if (existing_desc.isAccessorDescriptor() || desc.isAccessorDescriptor() ||
(desc.hasEnumerable() && existing_desc.enumerable() != desc.enumerable()) ||
(desc.hasWritable() && !existing_desc.writable() && desc.writable()))
{
// We should technically report non-configurability in strict mode, but
// doing that via JSAPI used to be a lot of trouble. See bug 1135997.
return result.succeed();
}
if (!existing_desc.writable()) {
// Same as the above for non-writability.
return result.succeed();
}
}
bool defined = false;
if (!Traits::singleton.defineProperty(cx, wrapper, id, desc, existing_desc, result, &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))
return false;
// Fix up Xray waivers.
if (!RecreateLostWaivers(cx, desc.address(), &wrappedDesc))
return false;
return JS_DefinePropertyById(cx, expandoObject, id, wrappedDesc, result);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::ownPropertyKeys(JSContext* cx, HandleObject wrapper,
AutoIdVector& props) const
{
assertEnteredPolicy(cx, wrapper, JSID_VOID, BaseProxyHandler::ENUMERATE);
return getPropertyKeys(cx, wrapper, JSITER_OWNONLY | JSITER_HIDDEN | JSITER_SYMBOLS, props);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::delete_(JSContext* cx, HandleObject wrapper,
HandleId id, ObjectOpResult& result) const
{
assertEnteredPolicy(cx, wrapper, id, BaseProxyHandler::SET);
// Check the expando object.
RootedObject target(cx, Traits::getTargetObject(wrapper));
RootedObject expando(cx);
if (!Traits::singleton.getExpandoObject(cx, target, wrapper, &expando))
return false;
if (expando) {
JSAutoCompartment ac(cx, expando);
bool hasProp;
if (!JS_HasPropertyById(cx, expando, id, &hasProp)) {
return false;
}
if (hasProp) {
return JS_DeletePropertyById(cx, expando, id, result);
}
}
return Traits::singleton.delete_(cx, wrapper, id, result);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::get(JSContext* cx, HandleObject wrapper,
HandleValue receiver, HandleId id,
MutableHandleValue vp) const
{
// 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.
RootedValue thisv(cx);
if (Traits::HasPrototype)
thisv = receiver;
else
thisv.setObject(*wrapper);
// This uses getPropertyDescriptor for backward compatibility with
// the old BaseProxyHandler::get implementation.
Rooted<PropertyDescriptor> desc(cx);
if (!getPropertyDescriptor(cx, wrapper, id, &desc))
return false;
desc.assertCompleteIfFound();
if (!desc.object()) {
vp.setUndefined();
return true;
}
// Everything after here follows [[Get]] for ordinary objects.
if (desc.isDataDescriptor()) {
vp.set(desc.value());
return true;
}
MOZ_ASSERT(desc.isAccessorDescriptor());
RootedObject getter(cx, desc.getterObject());
if (!getter) {
vp.setUndefined();
return true;
}
return Call(cx, thisv, getter, HandleValueArray::empty(), vp);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::set(JSContext* cx, HandleObject wrapper, HandleId id, HandleValue v,
HandleValue receiver, ObjectOpResult& result) const
{
MOZ_ASSERT(!Traits::HasPrototype);
// 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.
RootedValue wrapperValue(cx, ObjectValue(*wrapper));
return js::BaseProxyHandler::set(cx, wrapper, id, v, wrapperValue, result);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::has(JSContext* cx, HandleObject wrapper,
HandleId id, bool* bp) const
{
// This uses getPropertyDescriptor for backward compatibility with
// the old BaseProxyHandler::has implementation.
Rooted<PropertyDescriptor> desc(cx);
if (!getPropertyDescriptor(cx, wrapper, id, &desc))
return false;
*bp = !!desc.object();
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::hasOwn(JSContext* cx, HandleObject wrapper,
HandleId id, bool* bp) const
{
// 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>::getOwnEnumerablePropertyKeys(JSContext* cx,
HandleObject wrapper,
AutoIdVector& props) const
{
// Skip our Base if it isn't already ProxyHandler.
return js::BaseProxyHandler::getOwnEnumerablePropertyKeys(cx, wrapper, props);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::enumerate(JSContext* cx, HandleObject wrapper,
MutableHandleObject objp) const
{
// Skip our Base if it isn't already ProxyHandler.
return js::BaseProxyHandler::enumerate(cx, wrapper, objp);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::call(JSContext* cx, HandleObject wrapper, const JS::CallArgs& args) const
{
assertEnteredPolicy(cx, wrapper, JSID_VOID, BaseProxyHandler::CALL);
// Hard cast the singleton since SecurityWrapper doesn't have one.
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) const
{
assertEnteredPolicy(cx, wrapper, JSID_VOID, BaseProxyHandler::CALL);
// Hard cast the singleton since SecurityWrapper doesn't have one.
return Traits::construct(cx, wrapper, args, Base::singleton);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::getBuiltinClass(JSContext* cx, JS::HandleObject wrapper, js::ESClass* cls) const
{
return Traits::getBuiltinClass(cx, wrapper, Base::singleton, cls);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::hasInstance(JSContext* cx,
JS::HandleObject wrapper,
JS::MutableHandleValue v,
bool* bp) const {
assertEnteredPolicy(cx, wrapper, JSID_VOID, BaseProxyHandler::GET);
// CrossCompartmentWrapper::hasInstance unwraps |wrapper|'s Xrays and enters
// its compartment. Any present XrayWrappers should be preserved, so the
// standard "instanceof" implementation is called without unwrapping first.
return JS::InstanceofOperator(cx, wrapper, v, bp);
}
template <typename Base, typename Traits>
const char*
XrayWrapper<Base, Traits>::className(JSContext* cx, HandleObject wrapper) const
{
return Traits::className(cx, wrapper, Base::singleton);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::getPrototype(JSContext* cx, JS::HandleObject wrapper,
JS::MutableHandleObject protop) const
{
// We really only want this override for non-SecurityWrapper-inheriting
// |Base|. But doing that statically with templates requires partial method
// specializations (and therefore a helper class), which is all more trouble
// than it's worth. Do a dynamic check.
if (Base::hasSecurityPolicy())
return Base::getPrototype(cx, wrapper, protop);
RootedObject target(cx, Traits::getTargetObject(wrapper));
RootedObject expando(cx);
if (!Traits::singleton.getExpandoObject(cx, target, wrapper, &expando))
return false;
// We want to keep the Xray's prototype distinct from that of content, but
// only if there's been a set. If there's not an expando, or the expando
// slot is |undefined|, hand back the default proto, appropriately wrapped.
RootedValue v(cx);
if (expando) {
JSAutoCompartment ac(cx, expando);
v = JS_GetReservedSlot(expando, JSSLOT_EXPANDO_PROTOTYPE);
}
if (v.isUndefined())
return getPrototypeHelper(cx, wrapper, target, protop);
protop.set(v.toObjectOrNull());
return JS_WrapObject(cx, protop);
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::setPrototype(JSContext* cx, JS::HandleObject wrapper,
JS::HandleObject proto, JS::ObjectOpResult& result) const
{
// Do this only for non-SecurityWrapper-inheriting |Base|. See the comment
// in getPrototype().
if (Base::hasSecurityPolicy())
return Base::setPrototype(cx, wrapper, proto, result);
RootedObject target(cx, Traits::getTargetObject(wrapper));
RootedObject expando(cx, Traits::singleton.ensureExpandoObject(cx, wrapper, target));
if (!expando)
return false;
// The expando lives in the target's compartment, so do our installation there.
JSAutoCompartment ac(cx, target);
RootedValue v(cx, ObjectOrNullValue(proto));
if (!JS_WrapValue(cx, &v))
return false;
JS_SetReservedSlot(expando, JSSLOT_EXPANDO_PROTOTYPE, v);
return result.succeed();
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::getPrototypeIfOrdinary(JSContext* cx, JS::HandleObject wrapper,
bool* isOrdinary,
JS::MutableHandleObject protop) const
{
// We want to keep the Xray's prototype distinct from that of content, but
// only if there's been a set. This different-prototype-over-time behavior
// means that the [[GetPrototypeOf]] trap *can't* be ECMAScript's ordinary
// [[GetPrototypeOf]]. This also covers cross-origin Window behavior that
// per <https://html.spec.whatwg.org/multipage/browsers.html#windowproxy-getprototypeof>
// must be non-ordinary.
*isOrdinary = false;
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::setImmutablePrototype(JSContext* cx, JS::HandleObject wrapper,
bool* succeeded) const
{
// For now, lacking an obvious place to store a bit, prohibit making an
// Xray's [[Prototype]] immutable. We can revisit this (or maybe give all
// Xrays immutable [[Prototype]], because who does this, really?) later if
// necessary.
*succeeded = false;
return true;
}
template <typename Base, typename Traits>
bool
XrayWrapper<Base, Traits>::getPropertyKeys(JSContext* cx, HandleObject wrapper, unsigned flags,
AutoIdVector& props) const
{
assertEnteredPolicy(cx, wrapper, JSID_VOID, BaseProxyHandler::ENUMERATE);
// Enumerate expando properties first. Note that the expando object lives
// in the target compartment.
RootedObject target(cx, Traits::singleton.getTargetObject(wrapper));
RootedObject expando(cx);
if (!Traits::singleton.getExpandoObject(cx, target, wrapper, &expando))
return false;
if (expando) {
JSAutoCompartment ac(cx, expando);
if (!js::GetPropertyKeys(cx, expando, flags, &props))
return false;
}
return Traits::singleton.enumerateNames(cx, wrapper, flags, props);
}
/*
* 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<typename Base, typename Traits>
const xpc::XrayWrapper<Base, Traits>
xpc::XrayWrapper<Base, Traits>::singleton(0);
template class PermissiveXrayXPCWN;
template class SecurityXrayXPCWN;
template class PermissiveXrayDOM;
template class SecurityXrayDOM;
template class PermissiveXrayJS;
template class PermissiveXrayOpaque;
} // namespace xpc
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