bool RegExpObject::defineOwnProperty(JSObject* object, ExecState* exec, PropertyName propertyName, const PropertyDescriptor& descriptor, bool shouldThrow)
{
VM& vm = exec->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
if (propertyName == vm.propertyNames->lastIndex) {
RegExpObject* regExp = asRegExpObject(object);
if (descriptor.configurablePresent() && descriptor.configurable())
return typeError(exec, scope, shouldThrow, ASCIILiteral(UnconfigurablePropertyChangeConfigurabilityError));
if (descriptor.enumerablePresent() && descriptor.enumerable())
return typeError(exec, scope, shouldThrow, ASCIILiteral(UnconfigurablePropertyChangeEnumerabilityError));
if (descriptor.isAccessorDescriptor())
return typeError(exec, scope, shouldThrow, ASCIILiteral(UnconfigurablePropertyChangeAccessMechanismError));
if (!regExp->m_lastIndexIsWritable) {
if (descriptor.writablePresent() && descriptor.writable())
return typeError(exec, scope, shouldThrow, ASCIILiteral(UnconfigurablePropertyChangeWritabilityError));
if (!sameValue(exec, regExp->getLastIndex(), descriptor.value()))
return typeError(exec, scope, shouldThrow, ASCIILiteral(ReadonlyPropertyChangeError));
return true;
}
if (descriptor.value()) {
regExp->setLastIndex(exec, descriptor.value(), false);
RETURN_IF_EXCEPTION(scope, false);
}
if (descriptor.writablePresent() && !descriptor.writable())
regExp->m_lastIndexIsWritable = false;
return true;
}
scope.release();
return Base::defineOwnProperty(object, exec, propertyName, descriptor, shouldThrow);
}
bool RegExpObject::defineOwnProperty(JSObject* object, ExecState* exec, PropertyName propertyName, PropertyDescriptor& descriptor, bool shouldThrow)
{
if (propertyName == exec->propertyNames().lastIndex) {
RegExpObject* regExp = asRegExpObject(object);
if (descriptor.configurablePresent() && descriptor.configurable())
return reject(exec, shouldThrow, "Attempting to change configurable attribute of unconfigurable property.");
if (descriptor.enumerablePresent() && descriptor.enumerable())
return reject(exec, shouldThrow, "Attempting to change enumerable attribute of unconfigurable property.");
if (descriptor.isAccessorDescriptor())
return reject(exec, shouldThrow, "Attempting to change access mechanism for an unconfigurable property.");
if (!regExp->m_lastIndexIsWritable) {
if (descriptor.writablePresent() && descriptor.writable())
return reject(exec, shouldThrow, "Attempting to change writable attribute of unconfigurable property.");
if (!sameValue(exec, regExp->getLastIndex(), descriptor.value()))
return reject(exec, shouldThrow, "Attempting to change value of a readonly property.");
return true;
}
if (descriptor.writablePresent() && !descriptor.writable())
regExp->m_lastIndexIsWritable = false;
if (descriptor.value())
regExp->setLastIndex(exec, descriptor.value(), false);
return true;
}
return Base::defineOwnProperty(object, exec, propertyName, descriptor, shouldThrow);
}
bool JSFunction::defineOwnProperty(JSObject* object, ExecState* exec, const Identifier& propertyName, PropertyDescriptor& descriptor, bool throwException)
{
JSFunction* thisObject = jsCast<JSFunction*>(object);
if (thisObject->isHostFunction())
return Base::defineOwnProperty(object, exec, propertyName, descriptor, throwException);
if (propertyName == exec->propertyNames().prototype) {
// Make sure prototype has been reified, such that it can only be overwritten
// following the rules set out in ECMA-262 8.12.9.
PropertySlot slot;
thisObject->methodTable()->getOwnPropertySlot(thisObject, exec, propertyName, slot);
} else if (propertyName == exec->propertyNames().arguments || propertyName == exec->propertyNames().length || propertyName == exec->propertyNames().caller) {
if (!object->isExtensible()) {
if (throwException)
throwError(exec, createTypeError(exec, "Attempting to define property on object that is not extensible."));
return false;
}
if (descriptor.configurablePresent() && descriptor.configurable()) {
if (throwException)
throwError(exec, createTypeError(exec, "Attempting to configurable attribute of unconfigurable property."));
return false;
}
if (descriptor.enumerablePresent() && descriptor.enumerable()) {
if (throwException)
throwError(exec, createTypeError(exec, "Attempting to change enumerable attribute of unconfigurable property."));
return false;
}
if (descriptor.isAccessorDescriptor()) {
if (throwException)
throwError(exec, createTypeError(exec, "Attempting to change access mechanism for an unconfigurable property."));
return false;
}
if (descriptor.writablePresent() && descriptor.writable()) {
if (throwException)
throwError(exec, createTypeError(exec, "Attempting to change writable attribute of unconfigurable property."));
return false;
}
if (!descriptor.value())
return true;
if (propertyName == exec->propertyNames().arguments && sameValue(exec, descriptor.value(), exec->interpreter()->retrieveArgumentsFromVMCode(exec, thisObject)))
return true;
if (propertyName == exec->propertyNames().length && sameValue(exec, descriptor.value(), jsNumber(thisObject->jsExecutable()->parameterCount())))
return true;
if (propertyName == exec->propertyNames().caller && sameValue(exec, descriptor.value(), exec->interpreter()->retrieveCallerFromVMCode(exec, thisObject)))
return true;
if (throwException)
throwError(exec, createTypeError(exec, "Attempting to change value of a readonly property."));
return false;
}
return Base::defineOwnProperty(object, exec, propertyName, descriptor, throwException);
}
bool StringObject::defineOwnProperty(JSObject* object, ExecState* exec, PropertyName propertyName, PropertyDescriptor& descriptor, bool throwException)
{
StringObject* thisObject = jsCast<StringObject*>(object);
if (propertyName == exec->propertyNames().length) {
if (!object->isExtensible()) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to define property on object that is not extensible.")));
return false;
}
if (descriptor.configurablePresent() && descriptor.configurable()) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to configurable attribute of unconfigurable property.")));
return false;
}
if (descriptor.enumerablePresent() && descriptor.enumerable()) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to change enumerable attribute of unconfigurable property.")));
return false;
}
if (descriptor.isAccessorDescriptor()) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to change access mechanism for an unconfigurable property.")));
return false;
}
if (descriptor.writablePresent() && descriptor.writable()) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to change writable attribute of unconfigurable property.")));
return false;
}
if (!descriptor.value())
return true;
if (propertyName == exec->propertyNames().length && sameValue(exec, descriptor.value(), jsNumber(thisObject->internalValue()->length())))
return true;
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to change value of a readonly property.")));
return false;
}
return Base::defineOwnProperty(object, exec, propertyName, descriptor, throwException);
}
// Defined in ES5.1 15.4.5.1
bool JSArray::defineOwnProperty(JSObject* object, ExecState* exec, PropertyName propertyName, const PropertyDescriptor& descriptor, bool throwException)
{
JSArray* array = jsCast<JSArray*>(object);
// 3. If P is "length", then
if (propertyName == exec->propertyNames().length) {
// All paths through length definition call the default [[DefineOwnProperty]], hence:
// from ES5.1 8.12.9 7.a.
if (descriptor.configurablePresent() && descriptor.configurable())
return reject(exec, throwException, "Attempting to change configurable attribute of unconfigurable property.");
// from ES5.1 8.12.9 7.b.
if (descriptor.enumerablePresent() && descriptor.enumerable())
return reject(exec, throwException, "Attempting to change enumerable attribute of unconfigurable property.");
// a. If the [[Value]] field of Desc is absent, then
// a.i. Return the result of calling the default [[DefineOwnProperty]] internal method (8.12.9) on A passing "length", Desc, and Throw as arguments.
if (descriptor.isAccessorDescriptor())
return reject(exec, throwException, "Attempting to change access mechanism for an unconfigurable property.");
// from ES5.1 8.12.9 10.a.
if (!array->isLengthWritable() && descriptor.writablePresent() && descriptor.writable())
return reject(exec, throwException, "Attempting to change writable attribute of unconfigurable property.");
// This descriptor is either just making length read-only, or changing nothing!
if (!descriptor.value()) {
if (descriptor.writablePresent())
array->setLengthWritable(exec, descriptor.writable());
return true;
}
// b. Let newLenDesc be a copy of Desc.
// c. Let newLen be ToUint32(Desc.[[Value]]).
unsigned newLen = descriptor.value().toUInt32(exec);
// d. If newLen is not equal to ToNumber( Desc.[[Value]]), throw a RangeError exception.
if (newLen != descriptor.value().toNumber(exec)) {
exec->vm().throwException(exec, createRangeError(exec, ASCIILiteral("Invalid array length")));
return false;
}
// Based on SameValue check in 8.12.9, this is always okay.
// FIXME: Nothing prevents this from being called on a RuntimeArray, and the length function will always return 0 in that case.
if (newLen == array->length()) {
if (descriptor.writablePresent())
array->setLengthWritable(exec, descriptor.writable());
return true;
}
// e. Set newLenDesc.[[Value] to newLen.
// f. If newLen >= oldLen, then
// f.i. Return the result of calling the default [[DefineOwnProperty]] internal method (8.12.9) on A passing "length", newLenDesc, and Throw as arguments.
// g. Reject if oldLenDesc.[[Writable]] is false.
if (!array->isLengthWritable())
return reject(exec, throwException, "Attempting to change value of a readonly property.");
// h. If newLenDesc.[[Writable]] is absent or has the value true, let newWritable be true.
// i. Else,
// i.i. Need to defer setting the [[Writable]] attribute to false in case any elements cannot be deleted.
// i.ii. Let newWritable be false.
// i.iii. Set newLenDesc.[[Writable] to true.
// j. Let succeeded be the result of calling the default [[DefineOwnProperty]] internal method (8.12.9) on A passing "length", newLenDesc, and Throw as arguments.
// k. If succeeded is false, return false.
// l. While newLen < oldLen repeat,
// l.i. Set oldLen to oldLen – 1.
// l.ii. Let deleteSucceeded be the result of calling the [[Delete]] internal method of A passing ToString(oldLen) and false as arguments.
// l.iii. If deleteSucceeded is false, then
if (!array->setLength(exec, newLen, throwException)) {
// 1. Set newLenDesc.[[Value] to oldLen+1.
// 2. If newWritable is false, set newLenDesc.[[Writable] to false.
// 3. Call the default [[DefineOwnProperty]] internal method (8.12.9) on A passing "length", newLenDesc, and false as arguments.
// 4. Reject.
if (descriptor.writablePresent())
array->setLengthWritable(exec, descriptor.writable());
return false;
}
// m. If newWritable is false, then
// i. Call the default [[DefineOwnProperty]] internal method (8.12.9) on A passing "length",
// Property Descriptor{[[Writable]]: false}, and false as arguments. This call will always
// return true.
if (descriptor.writablePresent())
array->setLengthWritable(exec, descriptor.writable());
// n. Return true.
return true;
}
// 4. Else if P is an array index (15.4), then
// a. Let index be ToUint32(P).
if (Optional<uint32_t> optionalIndex = parseIndex(propertyName)) {
// b. Reject if index >= oldLen and oldLenDesc.[[Writable]] is false.
uint32_t index = optionalIndex.value();
// FIXME: Nothing prevents this from being called on a RuntimeArray, and the length function will always return 0 in that case.
if (index >= array->length() && !array->isLengthWritable())
return reject(exec, throwException, "Attempting to define numeric property on array with non-writable length property.");
// c. Let succeeded be the result of calling the default [[DefineOwnProperty]] internal method (8.12.9) on A passing P, Desc, and false as arguments.
// d. Reject if succeeded is false.
// e. If index >= oldLen
// e.i. Set oldLenDesc.[[Value]] to index + 1.
// e.ii. Call the default [[DefineOwnProperty]] internal method (8.12.9) on A passing "length", oldLenDesc, and false as arguments. This call will always return true.
// f. Return true.
return array->defineOwnIndexedProperty(exec, index, descriptor, throwException);
}
return array->JSObject::defineOwnNonIndexProperty(exec, propertyName, descriptor, throwException);
}
bool JSFunction::defineOwnProperty(JSObject* object, ExecState* exec, PropertyName propertyName, PropertyDescriptor& descriptor, bool throwException)
{
JSFunction* thisObject = jsCast<JSFunction*>(object);
if (thisObject->isHostFunction())
return Base::defineOwnProperty(object, exec, propertyName, descriptor, throwException);
if (propertyName == exec->propertyNames().prototype) {
// Make sure prototype has been reified, such that it can only be overwritten
// following the rules set out in ECMA-262 8.12.9.
PropertySlot slot;
thisObject->methodTable()->getOwnPropertySlot(thisObject, exec, propertyName, slot);
thisObject->m_allocationProfile.clear();
thisObject->m_allocationProfileWatchpoint.notifyWrite();
return Base::defineOwnProperty(object, exec, propertyName, descriptor, throwException);
}
bool valueCheck;
if (propertyName == exec->propertyNames().arguments) {
if (thisObject->jsExecutable()->isStrictMode()) {
if (!Base::getOwnPropertyDescriptor(thisObject, exec, propertyName, descriptor))
thisObject->putDirectAccessor(exec, propertyName, thisObject->globalObject()->throwTypeErrorGetterSetter(exec), DontDelete | DontEnum | Accessor);
return Base::defineOwnProperty(object, exec, propertyName, descriptor, throwException);
}
valueCheck = !descriptor.value() || sameValue(exec, descriptor.value(), exec->interpreter()->retrieveArgumentsFromVMCode(exec, thisObject));
} else if (propertyName == exec->propertyNames().caller) {
if (thisObject->jsExecutable()->isStrictMode()) {
if (!Base::getOwnPropertyDescriptor(thisObject, exec, propertyName, descriptor))
thisObject->putDirectAccessor(exec, propertyName, thisObject->globalObject()->throwTypeErrorGetterSetter(exec), DontDelete | DontEnum | Accessor);
return Base::defineOwnProperty(object, exec, propertyName, descriptor, throwException);
}
valueCheck = !descriptor.value() || sameValue(exec, descriptor.value(), exec->interpreter()->retrieveCallerFromVMCode(exec, thisObject));
} else if (propertyName == exec->propertyNames().length)
valueCheck = !descriptor.value() || sameValue(exec, descriptor.value(), jsNumber(thisObject->jsExecutable()->parameterCount()));
else if (propertyName == exec->propertyNames().name)
valueCheck = !descriptor.value() || sameValue(exec, descriptor.value(), thisObject->jsExecutable()->nameValue());
else
return Base::defineOwnProperty(object, exec, propertyName, descriptor, throwException);
if (descriptor.configurablePresent() && descriptor.configurable()) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to configurable attribute of unconfigurable property.")));
return false;
}
if (descriptor.enumerablePresent() && descriptor.enumerable()) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to change enumerable attribute of unconfigurable property.")));
return false;
}
if (descriptor.isAccessorDescriptor()) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to change access mechanism for an unconfigurable property.")));
return false;
}
if (descriptor.writablePresent() && descriptor.writable()) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to change writable attribute of unconfigurable property.")));
return false;
}
if (!valueCheck) {
if (throwException)
throwError(exec, createTypeError(exec, ASCIILiteral("Attempting to change value of a readonly property.")));
return false;
}
return true;
}
bool JSObject::defineOwnProperty(ExecState* exec, const Identifier& propertyName, PropertyDescriptor& descriptor, bool throwException)
{
// If we have a new property we can just put it on normally
PropertyDescriptor current;
if (!getOwnPropertyDescriptor(exec, propertyName, current))
return putDescriptor(exec, this, propertyName, descriptor, descriptor.attributes(), jsUndefined());
if (descriptor.isEmpty())
return true;
if (current.equalTo(descriptor))
return true;
// Filter out invalid changes
if (!current.configurable()) {
if (descriptor.configurable()) {
if (throwException)
throwError(exec, TypeError, "Attempting to configurable attribute of unconfigurable property.");
return false;
}
if (descriptor.enumerablePresent() && descriptor.enumerable() != current.enumerable()) {
if (throwException)
throwError(exec, TypeError, "Attempting to change enumerable attribute of unconfigurable property.");
return false;
}
}
// A generic descriptor is simply changing the attributes of an existing property
if (descriptor.isGenericDescriptor()) {
if (!current.attributesEqual(descriptor)) {
deleteProperty(exec, propertyName);
putDescriptor(exec, this, propertyName, descriptor, current.attributesWithOverride(descriptor), current.value());
}
return true;
}
// Changing between a normal property or an accessor property
if (descriptor.isDataDescriptor() != current.isDataDescriptor()) {
if (!current.configurable()) {
if (throwException)
throwError(exec, TypeError, "Attempting to change access mechanism for an unconfigurable property.");
return false;
}
deleteProperty(exec, propertyName);
return putDescriptor(exec, this, propertyName, descriptor, current.attributesWithOverride(descriptor), current.value() ? current.value() : jsUndefined());
}
// Changing the value and attributes of an existing property
if (descriptor.isDataDescriptor()) {
if (!current.configurable()) {
if (!current.writable() && descriptor.writable()) {
if (throwException)
throwError(exec, TypeError, "Attempting to change writable attribute of unconfigurable property.");
return false;
}
if (!current.writable()) {
if (descriptor.value() || !JSValue::strictEqual(current.value(), descriptor.value())) {
if (throwException)
throwError(exec, TypeError, "Attempting to change value of a readonly property.");
return false;
}
}
} else if (current.attributesEqual(descriptor)) {
if (!descriptor.value())
return true;
PutPropertySlot slot;
put(exec, propertyName, descriptor.value(), slot);
if (exec->hadException())
return false;
return true;
}
deleteProperty(exec, propertyName);
return putDescriptor(exec, this, propertyName, descriptor, current.attributesWithOverride(descriptor), current.value());
}
// Changing the accessor functions of an existing accessor property
ASSERT(descriptor.isAccessorDescriptor());
if (!current.configurable()) {
if (descriptor.setterPresent() && !(current.setter() && JSValue::strictEqual(current.setter(), descriptor.setter()))) {
if (throwException)
throwError(exec, TypeError, "Attempting to change the setter of an unconfigurable property.");
return false;
}
if (descriptor.getterPresent() && !(current.getter() && JSValue::strictEqual(current.getter(), descriptor.getter()))) {
if (throwException)
throwError(exec, TypeError, "Attempting to change the getter of an unconfigurable property.");
return false;
}
}
JSValue accessor = getDirect(propertyName);
if (!accessor)
return false;
GetterSetter* getterSetter = asGetterSetter(accessor);
if (current.attributesEqual(descriptor)) {
if (descriptor.setter())
getterSetter->setSetter(asObject(descriptor.setter()));
if (descriptor.getter())
getterSetter->setGetter(asObject(descriptor.getter()));
return true;
}
deleteProperty(exec, propertyName);
unsigned attrs = current.attributesWithOverride(descriptor);
if (descriptor.setter())
attrs |= Setter;
if (descriptor.getter())
attrs |= Getter;
putDirect(propertyName, getterSetter, attrs);
return true;
}
