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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 "vm/UnboxedObject-inl.h"
#include "jit/BaselineIC.h"
#include "jit/ExecutableAllocator.h"
#include "jit/JitCommon.h"
#include "jit/Linker.h"
#include "jsobjinlines.h"
#include "gc/Nursery-inl.h"
#include "jit/MacroAssembler-inl.h"
#include "vm/Shape-inl.h"
using mozilla::ArrayLength;
using mozilla::DebugOnly;
using mozilla::PodCopy;
using namespace js;
/////////////////////////////////////////////////////////////////////
// UnboxedLayout
/////////////////////////////////////////////////////////////////////
void
UnboxedLayout::trace(JSTracer* trc)
{
for (size_t i = 0; i < properties_.length(); i++)
TraceManuallyBarrieredEdge(trc, &properties_[i].name, "unboxed_layout_name");
if (newScript())
newScript()->trace(trc);
TraceNullableEdge(trc, &nativeGroup_, "unboxed_layout_nativeGroup");
TraceNullableEdge(trc, &nativeShape_, "unboxed_layout_nativeShape");
TraceNullableEdge(trc, &allocationScript_, "unboxed_layout_allocationScript");
TraceNullableEdge(trc, &replacementGroup_, "unboxed_layout_replacementGroup");
TraceNullableEdge(trc, &constructorCode_, "unboxed_layout_constructorCode");
}
size_t
UnboxedLayout::sizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf)
{
return mallocSizeOf(this)
+ properties_.sizeOfExcludingThis(mallocSizeOf)
+ (newScript() ? newScript()->sizeOfIncludingThis(mallocSizeOf) : 0)
+ mallocSizeOf(traceList());
}
void
UnboxedLayout::setNewScript(TypeNewScript* newScript, bool writeBarrier /* = true */)
{
if (newScript_ && writeBarrier)
TypeNewScript::writeBarrierPre(newScript_);
newScript_ = newScript;
}
// Constructor code returns a 0x1 value to indicate the constructor code should
// be cleared.
static const uintptr_t CLEAR_CONSTRUCTOR_CODE_TOKEN = 0x1;
/* static */ bool
UnboxedLayout::makeConstructorCode(JSContext* cx, HandleObjectGroup group)
{
gc::AutoSuppressGC suppress(cx);
using namespace jit;
if (!cx->compartment()->ensureJitCompartmentExists(cx))
return false;
UnboxedLayout& layout = group->unboxedLayout();
MOZ_ASSERT(!layout.constructorCode());
UnboxedPlainObject* templateObject = UnboxedPlainObject::create(cx, group, TenuredObject);
if (!templateObject)
return false;
JitContext jitContext(cx, nullptr);
MacroAssembler masm;
Register propertiesReg, newKindReg;
#ifdef JS_CODEGEN_X86
propertiesReg = eax;
newKindReg = ecx;
masm.loadPtr(Address(masm.getStackPointer(), sizeof(void*)), propertiesReg);
masm.loadPtr(Address(masm.getStackPointer(), 2 * sizeof(void*)), newKindReg);
#else
propertiesReg = IntArgReg0;
newKindReg = IntArgReg1;
#endif
#ifdef JS_CODEGEN_ARM64
// ARM64 communicates stack address via sp, but uses a pseudo-sp for addressing.
masm.initStackPtr();
#endif
MOZ_ASSERT(propertiesReg.volatile_());
MOZ_ASSERT(newKindReg.volatile_());
AllocatableGeneralRegisterSet regs(GeneralRegisterSet::All());
regs.take(propertiesReg);
regs.take(newKindReg);
Register object = regs.takeAny(), scratch1 = regs.takeAny(), scratch2 = regs.takeAny();
LiveGeneralRegisterSet savedNonVolatileRegisters = SavedNonVolatileRegisters(regs);
masm.PushRegsInMask(savedNonVolatileRegisters);
// The scratch double register might be used by MacroAssembler methods.
if (ScratchDoubleReg.volatile_())
masm.push(ScratchDoubleReg);
Label failure, tenuredObject, allocated;
masm.branch32(Assembler::NotEqual, newKindReg, Imm32(GenericObject), &tenuredObject);
masm.branchTest32(Assembler::NonZero, AbsoluteAddress(group->addressOfFlags()),
Imm32(OBJECT_FLAG_PRE_TENURE), &tenuredObject);
// Allocate an object in the nursery
masm.createGCObject(object, scratch1, templateObject, gc::DefaultHeap, &failure,
/* initFixedSlots = */ false);
masm.jump(&allocated);
masm.bind(&tenuredObject);
// Allocate an object in the tenured heap.
masm.createGCObject(object, scratch1, templateObject, gc::TenuredHeap, &failure,
/* initFixedSlots = */ false);
// If any of the properties being stored are in the nursery, add a store
// buffer entry for the new object.
Label postBarrier;
for (size_t i = 0; i < layout.properties().length(); i++) {
const UnboxedLayout::Property& property = layout.properties()[i];
if (property.type == JSVAL_TYPE_OBJECT) {
Address valueAddress(propertiesReg, i * sizeof(IdValuePair) + offsetof(IdValuePair, value));
Label notObject;
masm.branchTestObject(Assembler::NotEqual, valueAddress, ¬Object);
Register valueObject = masm.extractObject(valueAddress, scratch1);
masm.branchPtrInNurseryChunk(Assembler::Equal, valueObject, scratch2, &postBarrier);
masm.bind(¬Object);
}
}
masm.jump(&allocated);
masm.bind(&postBarrier);
LiveGeneralRegisterSet liveVolatileRegisters;
liveVolatileRegisters.add(propertiesReg);
if (object.volatile_())
liveVolatileRegisters.add(object);
masm.PushRegsInMask(liveVolatileRegisters);
masm.mov(ImmPtr(cx->runtime()), scratch1);
masm.setupUnalignedABICall(scratch2);
masm.passABIArg(scratch1);
masm.passABIArg(object);
masm.callWithABI(JS_FUNC_TO_DATA_PTR(void*, PostWriteBarrier));
masm.PopRegsInMask(liveVolatileRegisters);
masm.bind(&allocated);
ValueOperand valueOperand;
#ifdef JS_NUNBOX32
valueOperand = ValueOperand(scratch1, scratch2);
#else
valueOperand = ValueOperand(scratch1);
#endif
Label failureStoreOther, failureStoreObject;
for (size_t i = 0; i < layout.properties().length(); i++) {
const UnboxedLayout::Property& property = layout.properties()[i];
Address valueAddress(propertiesReg, i * sizeof(IdValuePair) + offsetof(IdValuePair, value));
Address targetAddress(object, UnboxedPlainObject::offsetOfData() + property.offset);
masm.loadValue(valueAddress, valueOperand);
if (property.type == JSVAL_TYPE_OBJECT) {
HeapTypeSet* types = group->maybeGetProperty(IdToTypeId(NameToId(property.name)));
Label notObject;
masm.branchTestObject(Assembler::NotEqual, valueOperand,
types->mightBeMIRType(MIRType::Null) ? ¬Object : &failureStoreObject);
Register payloadReg = masm.extractObject(valueOperand, scratch1);
if (!types->hasType(TypeSet::AnyObjectType())) {
Register scratch = (payloadReg == scratch1) ? scratch2 : scratch1;
masm.guardObjectType(payloadReg, types, scratch, &failureStoreObject);
}
masm.storeUnboxedProperty(targetAddress, JSVAL_TYPE_OBJECT,
TypedOrValueRegister(MIRType::Object,
AnyRegister(payloadReg)), nullptr);
if (notObject.used()) {
Label done;
masm.jump(&done);
masm.bind(¬Object);
masm.branchTestNull(Assembler::NotEqual, valueOperand, &failureStoreOther);
masm.storeUnboxedProperty(targetAddress, JSVAL_TYPE_OBJECT, NullValue(), nullptr);
masm.bind(&done);
}
} else {
masm.storeUnboxedProperty(targetAddress, property.type,
ConstantOrRegister(valueOperand), &failureStoreOther);
}
}
Label done;
masm.bind(&done);
if (object != ReturnReg)
masm.movePtr(object, ReturnReg);
// Restore non-volatile registers which were saved on entry.
if (ScratchDoubleReg.volatile_())
masm.pop(ScratchDoubleReg);
masm.PopRegsInMask(savedNonVolatileRegisters);
masm.abiret();
masm.bind(&failureStoreOther);
// There was a failure while storing a value which cannot be stored at all
// in the unboxed object. Initialize the object so it is safe for GC and
// return null.
masm.initUnboxedObjectContents(object, templateObject);
masm.bind(&failure);
masm.movePtr(ImmWord(0), object);
masm.jump(&done);
masm.bind(&failureStoreObject);
// There was a failure while storing a value to an object slot of the
// unboxed object. If the value is storable, the failure occurred due to
// incomplete type information in the object, so return a token to trigger
// regeneration of the jitcode after a new object is created in the VM.
{
Label isObject;
masm.branchTestObject(Assembler::Equal, valueOperand, &isObject);
masm.branchTestNull(Assembler::NotEqual, valueOperand, &failureStoreOther);
masm.bind(&isObject);
}
// Initialize the object so it is safe for GC.
masm.initUnboxedObjectContents(object, templateObject);
masm.movePtr(ImmWord(CLEAR_CONSTRUCTOR_CODE_TOKEN), object);
masm.jump(&done);
Linker linker(masm);
AutoFlushICache afc("UnboxedObject");
JitCode* code = linker.newCode<NoGC>(cx, OTHER_CODE);
if (!code)
return false;
layout.setConstructorCode(code);
return true;
}
void
UnboxedLayout::detachFromCompartment()
{
if (isInList())
remove();
}
/////////////////////////////////////////////////////////////////////
// UnboxedPlainObject
/////////////////////////////////////////////////////////////////////
bool
UnboxedPlainObject::setValue(ExclusiveContext* cx, const UnboxedLayout::Property& property,
const Value& v)
{
uint8_t* p = &data_[property.offset];
return SetUnboxedValue(cx, this, NameToId(property.name), p, property.type, v,
/* preBarrier = */ true);
}
Value
UnboxedPlainObject::getValue(const UnboxedLayout::Property& property,
bool maybeUninitialized /* = false */)
{
uint8_t* p = &data_[property.offset];
return GetUnboxedValue(p, property.type, maybeUninitialized);
}
void
UnboxedPlainObject::trace(JSTracer* trc, JSObject* obj)
{
if (obj->as<UnboxedPlainObject>().expando_) {
TraceManuallyBarrieredEdge(trc,
reinterpret_cast<NativeObject**>(&obj->as<UnboxedPlainObject>().expando_),
"unboxed_expando");
}
const UnboxedLayout& layout = obj->as<UnboxedPlainObject>().layoutDontCheckGeneration();
const int32_t* list = layout.traceList();
if (!list)
return;
uint8_t* data = obj->as<UnboxedPlainObject>().data();
while (*list != -1) {
GCPtrString* heap = reinterpret_cast<GCPtrString*>(data + *list);
TraceEdge(trc, heap, "unboxed_string");
list++;
}
list++;
while (*list != -1) {
GCPtrObject* heap = reinterpret_cast<GCPtrObject*>(data + *list);
TraceNullableEdge(trc, heap, "unboxed_object");
list++;
}
// Unboxed objects don't have Values to trace.
MOZ_ASSERT(*(list + 1) == -1);
}
/* static */ UnboxedExpandoObject*
UnboxedPlainObject::ensureExpando(JSContext* cx, Handle<UnboxedPlainObject*> obj)
{
if (obj->expando_)
return obj->expando_;
UnboxedExpandoObject* expando =
NewObjectWithGivenProto<UnboxedExpandoObject>(cx, nullptr, gc::AllocKind::OBJECT4);
if (!expando)
return nullptr;
// Don't track property types for expando objects. This allows Baseline
// and Ion AddSlot ICs to guard on the unboxed group without guarding on
// the expando group.
MarkObjectGroupUnknownProperties(cx, expando->group());
// If the expando is tenured then the original object must also be tenured.
// Otherwise barriers triggered on the original object for writes to the
// expando (as can happen in the JIT) won't see the tenured->nursery edge.
// See WholeCellEdges::mark.
MOZ_ASSERT_IF(!IsInsideNursery(expando), !IsInsideNursery(obj));
// As with setValue(), we need to manually trigger post barriers on the
// whole object. If we treat the field as a GCPtrObject and later
// convert the object to its native representation, we will end up with a
// corrupted store buffer entry.
if (IsInsideNursery(expando) && !IsInsideNursery(obj))
cx->runtime()->gc.storeBuffer.putWholeCell(obj);
obj->expando_ = expando;
return expando;
}
bool
UnboxedPlainObject::containsUnboxedOrExpandoProperty(ExclusiveContext* cx, jsid id) const
{
if (layout().lookup(id))
return true;
if (maybeExpando() && maybeExpando()->containsShapeOrElement(cx, id))
return true;
return false;
}
static bool
PropagatePropertyTypes(JSContext* cx, jsid id, ObjectGroup* oldGroup, ObjectGroup* newGroup)
{
HeapTypeSet* typeProperty = oldGroup->maybeGetProperty(id);
TypeSet::TypeList types;
if (!typeProperty->enumerateTypes(&types)) {
ReportOutOfMemory(cx);
return false;
}
for (size_t j = 0; j < types.length(); j++)
AddTypePropertyId(cx, newGroup, nullptr, id, types[j]);
return true;
}
static PlainObject*
MakeReplacementTemplateObject(JSContext* cx, HandleObjectGroup group, const UnboxedLayout &layout)
{
PlainObject* obj = NewObjectWithGroup<PlainObject>(cx, group, layout.getAllocKind(),
TenuredObject);
if (!obj)
return nullptr;
for (size_t i = 0; i < layout.properties().length(); i++) {
const UnboxedLayout::Property& property = layout.properties()[i];
if (!obj->addDataProperty(cx, NameToId(property.name), i, JSPROP_ENUMERATE))
return nullptr;
MOZ_ASSERT(obj->slotSpan() == i + 1);
MOZ_ASSERT(!obj->inDictionaryMode());
}
return obj;
}
/* static */ bool
UnboxedLayout::makeNativeGroup(JSContext* cx, ObjectGroup* group)
{
AutoEnterAnalysis enter(cx);
UnboxedLayout& layout = group->unboxedLayout();
Rooted<TaggedProto> proto(cx, group->proto());
MOZ_ASSERT(!layout.nativeGroup());
RootedObjectGroup replacementGroup(cx);
const Class* clasp = layout.isArray() ? &ArrayObject::class_ : &PlainObject::class_;
// Immediately clear any new script on the group. This is done by replacing
// the existing new script with one for a replacement default new group.
// This is done so that the size of the replacment group's objects is the
// same as that for the unboxed group, so that we do not see polymorphic
// slot accesses later on for sites that see converted objects from this
// group and objects that were allocated using the replacement new group.
if (layout.newScript()) {
MOZ_ASSERT(!layout.isArray());
replacementGroup = ObjectGroupCompartment::makeGroup(cx, &PlainObject::class_, proto);
if (!replacementGroup)
return false;
PlainObject* templateObject = MakeReplacementTemplateObject(cx, replacementGroup, layout);
if (!templateObject)
return false;
TypeNewScript* replacementNewScript =
TypeNewScript::makeNativeVersion(cx, layout.newScript(), templateObject);
if (!replacementNewScript)
return false;
replacementGroup->setNewScript(replacementNewScript);
gc::TraceTypeNewScript(replacementGroup);
group->clearNewScript(cx, replacementGroup);
}
// Similarly, if this group is keyed to an allocation site, replace its
// entry with a new group that has no unboxed layout.
if (layout.allocationScript()) {
RootedScript script(cx, layout.allocationScript());
jsbytecode* pc = layout.allocationPc();
replacementGroup = ObjectGroupCompartment::makeGroup(cx, clasp, proto);
if (!replacementGroup)
return false;
PlainObject* templateObject = &script->getObject(pc)->as<PlainObject>();
replacementGroup->addDefiniteProperties(cx, templateObject->lastProperty());
JSProtoKey key = layout.isArray() ? JSProto_Array : JSProto_Object;
cx->compartment()->objectGroups.replaceAllocationSiteGroup(script, pc, key,
replacementGroup);
// Clear any baseline information at this opcode which might use the old group.
if (script->hasBaselineScript()) {
jit::ICEntry& entry = script->baselineScript()->icEntryFromPCOffset(script->pcToOffset(pc));
jit::ICFallbackStub* fallback = entry.fallbackStub();
for (jit::ICStubIterator iter = fallback->beginChain(); !iter.atEnd(); iter++)
iter.unlink(cx);
if (fallback->isNewObject_Fallback())
fallback->toNewObject_Fallback()->setTemplateObject(nullptr);
else if (fallback->isNewArray_Fallback())
fallback->toNewArray_Fallback()->setTemplateGroup(replacementGroup);
}
}
size_t nfixed = layout.isArray() ? 0 : gc::GetGCKindSlots(layout.getAllocKind());
if (layout.isArray()) {
// The length shape to use for arrays is cached via a modified initial
// shape for array objects. Create an array now to make sure this entry
// is instantiated.
if (!NewDenseEmptyArray(cx))
return false;
}
RootedShape shape(cx, EmptyShape::getInitialShape(cx, clasp, proto, nfixed, 0));
if (!shape)
return false;
MOZ_ASSERT_IF(layout.isArray(), !shape->isEmptyShape() && shape->slotSpan() == 0);
// Add shapes for each property, if this is for a plain object.
for (size_t i = 0; i < layout.properties().length(); i++) {
const UnboxedLayout::Property& property = layout.properties()[i];
Rooted<StackShape> child(cx, StackShape(shape->base()->unowned(), NameToId(property.name),
i, JSPROP_ENUMERATE, 0));
shape = cx->zone()->propertyTree.getChild(cx, shape, child);
if (!shape)
return false;
}
ObjectGroup* nativeGroup =
ObjectGroupCompartment::makeGroup(cx, clasp, proto,
group->flags() & OBJECT_FLAG_DYNAMIC_MASK);
if (!nativeGroup)
return false;
// No sense propagating if we don't know what we started with.
if (!group->unknownProperties()) {
// Propagate all property types from the old group to the new group.
if (layout.isArray()) {
if (!PropagatePropertyTypes(cx, JSID_VOID, group, nativeGroup))
return false;
} else {
for (size_t i = 0; i < layout.properties().length(); i++) {
const UnboxedLayout::Property& property = layout.properties()[i];
jsid id = NameToId(property.name);
if (!PropagatePropertyTypes(cx, id, group, nativeGroup))
return false;
// If we are OOM we may not be able to propagate properties.
if (nativeGroup->unknownProperties())
break;
HeapTypeSet* nativeProperty = nativeGroup->maybeGetProperty(id);
if (nativeProperty && nativeProperty->canSetDefinite(i))
nativeProperty->setDefinite(i);
}
}
} else {
// If we skip, though, the new group had better agree.
MOZ_ASSERT(nativeGroup->unknownProperties());
}
layout.nativeGroup_ = nativeGroup;
layout.nativeShape_ = shape;
layout.replacementGroup_ = replacementGroup;
nativeGroup->setOriginalUnboxedGroup(group);
group->markStateChange(cx);
return true;
}
/* static */ bool
UnboxedPlainObject::convertToNative(JSContext* cx, JSObject* obj)
{
const UnboxedLayout& layout = obj->as<UnboxedPlainObject>().layout();
UnboxedExpandoObject* expando = obj->as<UnboxedPlainObject>().maybeExpando();
if (!layout.nativeGroup()) {
if (!UnboxedLayout::makeNativeGroup(cx, obj->group()))
return false;
// makeNativeGroup can reentrantly invoke this method.
if (obj->is<PlainObject>())
return true;
}
AutoValueVector values(cx);
for (size_t i = 0; i < layout.properties().length(); i++) {
// We might be reading properties off the object which have not been
// initialized yet. Make sure any double values we read here are
// canonicalized.
if (!values.append(obj->as<UnboxedPlainObject>().getValue(layout.properties()[i], true)))
return false;
}
// We are eliminating the expando edge with the conversion, so trigger a
// pre barrier.
JSObject::writeBarrierPre(expando);
// Additionally trigger a post barrier on the expando itself. Whole cell
// store buffer entries can be added on the original unboxed object for
// writes to the expando (see WholeCellEdges::trace), so after conversion
// we need to make sure the expando itself will still be traced.
if (expando && !IsInsideNursery(expando))
cx->runtime()->gc.storeBuffer.putWholeCell(expando);
obj->setGroup(layout.nativeGroup());
obj->as<PlainObject>().setLastPropertyMakeNative(cx, layout.nativeShape());
for (size_t i = 0; i < values.length(); i++)
obj->as<PlainObject>().initSlotUnchecked(i, values[i]);
if (expando) {
// Add properties from the expando object to the object, in order.
// Suppress GC here, so that callers don't need to worry about this
// method collecting. The stuff below can only fail due to OOM, in
// which case the object will not have been completely filled back in.
gc::AutoSuppressGC suppress(cx);
Vector<jsid> ids(cx);
for (Shape::Range<NoGC> r(expando->lastProperty()); !r.empty(); r.popFront()) {
if (!ids.append(r.front().propid()))
return false;
}
for (size_t i = 0; i < expando->getDenseInitializedLength(); i++) {
if (!expando->getDenseElement(i).isMagic(JS_ELEMENTS_HOLE)) {
if (!ids.append(INT_TO_JSID(i)))
return false;
}
}
::Reverse(ids.begin(), ids.end());
RootedPlainObject nobj(cx, &obj->as<PlainObject>());
Rooted<UnboxedExpandoObject*> nexpando(cx, expando);
RootedId id(cx);
Rooted<PropertyDescriptor> desc(cx);
for (size_t i = 0; i < ids.length(); i++) {
id = ids[i];
if (!GetOwnPropertyDescriptor(cx, nexpando, id, &desc))
return false;
ObjectOpResult result;
if (!DefineProperty(cx, nobj, id, desc, result))
return false;
MOZ_ASSERT(result.ok());
}
}
return true;
}
/* static */
UnboxedPlainObject*
UnboxedPlainObject::create(ExclusiveContext* cx, HandleObjectGroup group, NewObjectKind newKind)
{
AutoSetNewObjectMetadata metadata(cx);
MOZ_ASSERT(group->clasp() == &class_);
gc::AllocKind allocKind = group->unboxedLayout().getAllocKind();
UnboxedPlainObject* res =
NewObjectWithGroup<UnboxedPlainObject>(cx, group, allocKind, newKind);
if (!res)
return nullptr;
// Overwrite the dummy shape which was written to the object's expando field.
res->initExpando();
// Initialize reference fields of the object. All fields in the object will
// be overwritten shortly, but references need to be safe for the GC.
const int32_t* list = res->layout().traceList();
if (list) {
uint8_t* data = res->data();
while (*list != -1) {
GCPtrString* heap = reinterpret_cast<GCPtrString*>(data + *list);
heap->init(cx->names().empty);
list++;
}
list++;
while (*list != -1) {
GCPtrObject* heap = reinterpret_cast<GCPtrObject*>(data + *list);
heap->init(nullptr);
list++;
}
// Unboxed objects don't have Values to initialize.
MOZ_ASSERT(*(list + 1) == -1);
}
return res;
}
/* static */ JSObject*
UnboxedPlainObject::createWithProperties(ExclusiveContext* cx, HandleObjectGroup group,
NewObjectKind newKind, IdValuePair* properties)
{
MOZ_ASSERT(newKind == GenericObject || newKind == TenuredObject);
UnboxedLayout& layout = group->unboxedLayout();
if (layout.constructorCode()) {
MOZ_ASSERT(cx->isJSContext());
typedef JSObject* (*ConstructorCodeSignature)(IdValuePair*, NewObjectKind);
ConstructorCodeSignature function =
reinterpret_cast<ConstructorCodeSignature>(layout.constructorCode()->raw());
JSObject* obj;
{
JS::AutoSuppressGCAnalysis nogc;
obj = reinterpret_cast<JSObject*>(CALL_GENERATED_2(function, properties, newKind));
}
if (obj > reinterpret_cast<JSObject*>(CLEAR_CONSTRUCTOR_CODE_TOKEN))
return obj;
if (obj == reinterpret_cast<JSObject*>(CLEAR_CONSTRUCTOR_CODE_TOKEN))
layout.setConstructorCode(nullptr);
}
UnboxedPlainObject* obj = UnboxedPlainObject::create(cx, group, newKind);
if (!obj)
return nullptr;
for (size_t i = 0; i < layout.properties().length(); i++) {
if (!obj->setValue(cx, layout.properties()[i], properties[i].value))
return NewPlainObjectWithProperties(cx, properties, layout.properties().length(), newKind);
}
#ifndef JS_CODEGEN_NONE
if (cx->isJSContext() &&
!group->unknownProperties() &&
!layout.constructorCode() &&
cx->asJSContext()->runtime()->jitSupportsFloatingPoint &&
jit::CanLikelyAllocateMoreExecutableMemory())
{
if (!UnboxedLayout::makeConstructorCode(cx->asJSContext(), group))
return nullptr;
}
#endif
return obj;
}
/* static */ bool
UnboxedPlainObject::obj_lookupProperty(JSContext* cx, HandleObject obj,
HandleId id, MutableHandleObject objp,
MutableHandleShape propp)
{
if (obj->as<UnboxedPlainObject>().containsUnboxedOrExpandoProperty(cx, id)) {
MarkNonNativePropertyFound<CanGC>(propp);
objp.set(obj);
return true;
}
RootedObject proto(cx, obj->staticPrototype());
if (!proto) {
objp.set(nullptr);
propp.set(nullptr);
return true;
}
return LookupProperty(cx, proto, id, objp, propp);
}
/* static */ bool
UnboxedPlainObject::obj_defineProperty(JSContext* cx, HandleObject obj, HandleId id,
Handle<PropertyDescriptor> desc,
ObjectOpResult& result)
{
const UnboxedLayout& layout = obj->as<UnboxedPlainObject>().layout();
if (const UnboxedLayout::Property* property = layout.lookup(id)) {
if (!desc.getter() && !desc.setter() && desc.attributes() == JSPROP_ENUMERATE) {
// This define is equivalent to setting an existing property.
if (obj->as<UnboxedPlainObject>().setValue(cx, *property, desc.value()))
return result.succeed();
}
// Trying to incompatibly redefine an existing property requires the
// object to be converted to a native object.
if (!convertToNative(cx, obj))
return false;
return DefineProperty(cx, obj, id, desc, result);
}
// Define the property on the expando object.
Rooted<UnboxedExpandoObject*> expando(cx, ensureExpando(cx, obj.as<UnboxedPlainObject>()));
if (!expando)
return false;
// Update property types on the unboxed object as well.
AddTypePropertyId(cx, obj, id, desc.value());
return DefineProperty(cx, expando, id, desc, result);
}
/* static */ bool
UnboxedPlainObject::obj_hasProperty(JSContext* cx, HandleObject obj, HandleId id, bool* foundp)
{
if (obj->as<UnboxedPlainObject>().containsUnboxedOrExpandoProperty(cx, id)) {
*foundp = true;
return true;
}
RootedObject proto(cx, obj->staticPrototype());
if (!proto) {
*foundp = false;
return true;
}
return HasProperty(cx, proto, id, foundp);
}
/* static */ bool
UnboxedPlainObject::obj_getProperty(JSContext* cx, HandleObject obj, HandleValue receiver,
HandleId id, MutableHandleValue vp)
{
const UnboxedLayout& layout = obj->as<UnboxedPlainObject>().layout();
if (const UnboxedLayout::Property* property = layout.lookup(id)) {
vp.set(obj->as<UnboxedPlainObject>().getValue(*property));
return true;
}
if (UnboxedExpandoObject* expando = obj->as<UnboxedPlainObject>().maybeExpando()) {
if (expando->containsShapeOrElement(cx, id)) {
RootedObject nexpando(cx, expando);
return GetProperty(cx, nexpando, receiver, id, vp);
}
}
RootedObject proto(cx, obj->staticPrototype());
if (!proto) {
vp.setUndefined();
return true;
}
return GetProperty(cx, proto, receiver, id, vp);
}
/* static */ bool
UnboxedPlainObject::obj_setProperty(JSContext* cx, HandleObject obj, HandleId id, HandleValue v,
HandleValue receiver, ObjectOpResult& result)
{
const UnboxedLayout& layout = obj->as<UnboxedPlainObject>().layout();
if (const UnboxedLayout::Property* property = layout.lookup(id)) {
if (receiver.isObject() && obj == &receiver.toObject()) {
if (obj->as<UnboxedPlainObject>().setValue(cx, *property, v))
return result.succeed();
if (!convertToNative(cx, obj))
return false;
return SetProperty(cx, obj, id, v, receiver, result);
}
return SetPropertyByDefining(cx, id, v, receiver, result);
}
if (UnboxedExpandoObject* expando = obj->as<UnboxedPlainObject>().maybeExpando()) {
if (expando->containsShapeOrElement(cx, id)) {
// Update property types on the unboxed object as well.
AddTypePropertyId(cx, obj, id, v);
RootedObject nexpando(cx, expando);
return SetProperty(cx, nexpando, id, v, receiver, result);
}
}
return SetPropertyOnProto(cx, obj, id, v, receiver, result);
}
/* static */ bool
UnboxedPlainObject::obj_getOwnPropertyDescriptor(JSContext* cx, HandleObject obj, HandleId id,
MutableHandle<PropertyDescriptor> desc)
{
const UnboxedLayout& layout = obj->as<UnboxedPlainObject>().layout();
if (const UnboxedLayout::Property* property = layout.lookup(id)) {
desc.value().set(obj->as<UnboxedPlainObject>().getValue(*property));
desc.setAttributes(JSPROP_ENUMERATE);
desc.object().set(obj);
return true;
}
if (UnboxedExpandoObject* expando = obj->as<UnboxedPlainObject>().maybeExpando()) {
if (expando->containsShapeOrElement(cx, id)) {
RootedObject nexpando(cx, expando);
if (!GetOwnPropertyDescriptor(cx, nexpando, id, desc))
return false;
if (desc.object() == nexpando)
desc.object().set(obj);
return true;
}
}
desc.object().set(nullptr);
return true;
}
/* static */ bool
UnboxedPlainObject::obj_deleteProperty(JSContext* cx, HandleObject obj, HandleId id,
ObjectOpResult& result)
{
if (!convertToNative(cx, obj))
return false;
return DeleteProperty(cx, obj, id, result);
}
/* static */ bool
UnboxedPlainObject::obj_enumerate(JSContext* cx, HandleObject obj, AutoIdVector& properties,
bool enumerableOnly)
{
// Ignore expando properties here, they are special-cased by the property
// enumeration code.
const UnboxedLayout::PropertyVector& unboxed = obj->as<UnboxedPlainObject>().layout().properties();
for (size_t i = 0; i < unboxed.length(); i++) {
if (!properties.append(NameToId(unboxed[i].name)))
return false;
}
return true;
}
const Class UnboxedExpandoObject::class_ = {
"UnboxedExpandoObject",
0
};
static const ClassOps UnboxedPlainObjectClassOps = {
nullptr, /* addProperty */
nullptr, /* delProperty */
nullptr, /* getProperty */
nullptr, /* setProperty */
nullptr, /* enumerate */
nullptr, /* resolve */
nullptr, /* mayResolve */
nullptr, /* finalize */
nullptr, /* call */
nullptr, /* hasInstance */
nullptr, /* construct */
UnboxedPlainObject::trace,
};
static const ObjectOps UnboxedPlainObjectObjectOps = {
UnboxedPlainObject::obj_lookupProperty,
UnboxedPlainObject::obj_defineProperty,
UnboxedPlainObject::obj_hasProperty,
UnboxedPlainObject::obj_getProperty,
UnboxedPlainObject::obj_setProperty,
UnboxedPlainObject::obj_getOwnPropertyDescriptor,
UnboxedPlainObject::obj_deleteProperty,
nullptr, /* getElements */
UnboxedPlainObject::obj_enumerate,
nullptr /* funToString */
};
const Class UnboxedPlainObject::class_ = {
js_Object_str,
Class::NON_NATIVE |
JSCLASS_HAS_CACHED_PROTO(JSProto_Object) |
JSCLASS_DELAY_METADATA_BUILDER,
&UnboxedPlainObjectClassOps,
JS_NULL_CLASS_SPEC,
JS_NULL_CLASS_EXT,
&UnboxedPlainObjectObjectOps
};
/////////////////////////////////////////////////////////////////////
// API
/////////////////////////////////////////////////////////////////////
static bool
UnboxedTypeIncludes(JSValueType supertype, JSValueType subtype)
{
if (supertype == JSVAL_TYPE_DOUBLE && subtype == JSVAL_TYPE_INT32)
return true;
if (supertype == JSVAL_TYPE_OBJECT && subtype == JSVAL_TYPE_NULL)
return true;
return false;
}
static bool
CombineUnboxedTypes(const Value& value, JSValueType* existing)
{
JSValueType type = value.isDouble() ? JSVAL_TYPE_DOUBLE : value.extractNonDoubleType();
if (*existing == JSVAL_TYPE_MAGIC || *existing == type || UnboxedTypeIncludes(type, *existing)) {
*existing = type;
return true;
}
if (UnboxedTypeIncludes(*existing, type))
return true;
return false;
}
// Return whether the property names and types in layout are a subset of the
// specified vector.
static bool
PropertiesAreSuperset(const UnboxedLayout::PropertyVector& properties, UnboxedLayout* layout)
{
for (size_t i = 0; i < layout->properties().length(); i++) {
const UnboxedLayout::Property& layoutProperty = layout->properties()[i];
bool found = false;
for (size_t j = 0; j < properties.length(); j++) {
if (layoutProperty.name == properties[j].name) {
found = (layoutProperty.type == properties[j].type);
break;
}
}
if (!found)
return false;
}
return true;
}
static bool
CombinePlainObjectProperties(PlainObject* obj, Shape* templateShape,
UnboxedLayout::PropertyVector& properties)
{
// All preliminary objects must have been created with enough space to
// fill in their unboxed data inline. This is ensured either by using
// the largest allocation kind (which limits the maximum size of an
// unboxed object), or by using an allocation kind that covers all
// properties in the template, as the space used by unboxed properties
// is less than or equal to that used by boxed properties.
MOZ_ASSERT(gc::GetGCKindSlots(obj->asTenured().getAllocKind()) >=
Min(NativeObject::MAX_FIXED_SLOTS, templateShape->slotSpan()));
if (obj->lastProperty() != templateShape || obj->hasDynamicElements()) {
// Only use an unboxed representation if all created objects match
// the template shape exactly.
return false;
}
for (size_t i = 0; i < templateShape->slotSpan(); i++) {
Value val = obj->getSlot(i);
JSValueType& existing = properties[i].type;
if (!CombineUnboxedTypes(val, &existing))
return false;
}
return true;
}
static bool
CombineArrayObjectElements(ExclusiveContext* cx, ArrayObject* obj, JSValueType* elementType)
{
if (obj->inDictionaryMode() ||
obj->lastProperty()->propid() != AtomToId(cx->names().length) ||
!obj->lastProperty()->previous()->isEmptyShape())
{
// Only use an unboxed representation if the object has no properties.
return false;
}
for (size_t i = 0; i < obj->getDenseInitializedLength(); i++) {
Value val = obj->getDenseElement(i);
// For now, unboxed arrays cannot have holes.
if (val.isMagic(JS_ELEMENTS_HOLE))
return false;
if (!CombineUnboxedTypes(val, elementType))
return false;
}
return true;
}
static size_t
ComputePlainObjectLayout(ExclusiveContext* cx, Shape* templateShape,
UnboxedLayout::PropertyVector& properties)
{
// Fill in the names for all the object's properties.
for (Shape::Range<NoGC> r(templateShape); !r.empty(); r.popFront()) {
size_t slot = r.front().slot();
MOZ_ASSERT(!properties[slot].name);
properties[slot].name = JSID_TO_ATOM(r.front().propid())->asPropertyName();
}
// Fill in all the unboxed object's property offsets.
uint32_t offset = 0;
// Search for an existing unboxed layout which is a subset of this one.
// If there are multiple such layouts, use the largest one. If we're able
// to find such a layout, use the same property offsets for the shared
// properties, which will allow us to generate better code if the objects
// have a subtype/supertype relation and are accessed at common sites.
UnboxedLayout* bestExisting = nullptr;
for (UnboxedLayout* existing : cx->compartment()->unboxedLayouts) {
if (PropertiesAreSuperset(properties, existing)) {
if (!bestExisting ||
existing->properties().length() > bestExisting->properties().length())
{
bestExisting = existing;
}
}
}
if (bestExisting) {
for (size_t i = 0; i < bestExisting->properties().length(); i++) {
const UnboxedLayout::Property& existingProperty = bestExisting->properties()[i];
for (size_t j = 0; j < templateShape->slotSpan(); j++) {
if (existingProperty.name == properties[j].name) {
MOZ_ASSERT(existingProperty.type == properties[j].type);
properties[j].offset = existingProperty.offset;
}
}
}
offset = bestExisting->size();
}
// Order remaining properties from the largest down for the best space
// utilization.
static const size_t typeSizes[] = { 8, 4, 1 };
for (size_t i = 0; i < ArrayLength(typeSizes); i++) {
size_t size = typeSizes[i];
for (size_t j = 0; j < templateShape->slotSpan(); j++) {
if (properties[j].offset != UINT32_MAX)
continue;
JSValueType type = properties[j].type;
if (UnboxedTypeSize(type) == size) {
offset = JS_ROUNDUP(offset, size);
properties[j].offset = offset;
offset += size;
}
}
}
// The final offset is the amount of data needed by the object.
return offset;
}
static bool
SetLayoutTraceList(ExclusiveContext* cx, UnboxedLayout* layout)
{
// Figure out the offsets of any objects or string properties.
Vector<int32_t, 8, SystemAllocPolicy> objectOffsets, stringOffsets;
for (size_t i = 0; i < layout->properties().length(); i++) {
const UnboxedLayout::Property& property = layout->properties()[i];
MOZ_ASSERT(property.offset != UINT32_MAX);
if (property.type == JSVAL_TYPE_OBJECT) {
if (!objectOffsets.append(property.offset))
return false;
} else if (property.type == JSVAL_TYPE_STRING) {
if (!stringOffsets.append(property.offset))
return false;
}
}
// Construct the layout's trace list.
if (!objectOffsets.empty() || !stringOffsets.empty()) {
Vector<int32_t, 8, SystemAllocPolicy> entries;
if (!entries.appendAll(stringOffsets) ||
!entries.append(-1) ||
!entries.appendAll(objectOffsets) ||
!entries.append(-1) ||
!entries.append(-1))
{
return false;
}
int32_t* traceList = cx->zone()->pod_malloc<int32_t>(entries.length());
if (!traceList)
return false;
PodCopy(traceList, entries.begin(), entries.length());
layout->setTraceList(traceList);
}
return true;
}
static inline Value
NextValue(Handle<GCVector<Value>> values, size_t* valueCursor)
{
return values[(*valueCursor)++];
}
static bool
GetValuesFromPreliminaryArrayObject(ArrayObject* obj, MutableHandle<GCVector<Value>> values)
{
if (!values.append(Int32Value(obj->length())))
return false;
if (!values.append(Int32Value(obj->getDenseInitializedLength())))
return false;
for (size_t i = 0; i < obj->getDenseInitializedLength(); i++) {
if (!values.append(obj->getDenseElement(i)))
return false;
}
return true;
}
static bool
GetValuesFromPreliminaryPlainObject(PlainObject* obj, MutableHandle<GCVector<Value>> values)
{
for (size_t i = 0; i < obj->slotSpan(); i++) {
if (!values.append(obj->getSlot(i)))
return false;
}
return true;
}
void
UnboxedPlainObject::fillAfterConvert(ExclusiveContext* cx,
Handle<GCVector<Value>> values, size_t* valueCursor)
{
initExpando();
memset(data(), 0, layout().size());
for (size_t i = 0; i < layout().properties().length(); i++)
JS_ALWAYS_TRUE(setValue(cx, layout().properties()[i], NextValue(values, valueCursor)));
}
bool
js::TryConvertToUnboxedLayout(ExclusiveContext* cx, AutoEnterAnalysis& enter, Shape* templateShape,
ObjectGroup* group, PreliminaryObjectArray* objects)
{
bool isArray = !templateShape;
if (isArray) {
// Unboxed arrays are a NOP.
// All of this will go away so don't worry about removing unreachable code below.
return true;
} else {
if (jit::JitOptions.disableUnboxedObjects)
return true;
}
MOZ_ASSERT_IF(templateShape, !templateShape->getObjectFlags());
if (group->runtimeFromAnyThread()->isSelfHostingGlobal(cx->global()))
return true;
if (!isArray && templateShape->slotSpan() == 0)
return true;
UnboxedLayout::PropertyVector properties;
if (!isArray) {
if (!properties.appendN(UnboxedLayout::Property(), templateShape->slotSpan()))
return false;
}
JSValueType elementType = JSVAL_TYPE_MAGIC;
size_t objectCount = 0;
for (size_t i = 0; i < PreliminaryObjectArray::COUNT; i++) {
JSObject* obj = objects->get(i);
if (!obj)
continue;
if (obj->isSingleton() || obj->group() != group)
return true;
objectCount++;
if (isArray) {
if (!CombineArrayObjectElements(cx, &obj->as<ArrayObject>(), &elementType))
return true;
} else {
if (!CombinePlainObjectProperties(&obj->as<PlainObject>(), templateShape, properties))
return true;
}
}
size_t layoutSize = 0;
if (isArray) {
// Don't use an unboxed representation if we couldn't determine an
// element type for the objects.
if (UnboxedTypeSize(elementType) == 0)
return true;
} else {
if (objectCount <= 1) {
// If only one of the objects has been created, it is more likely
// to have new properties added later. This heuristic is not used
// for array objects, where we might want an unboxed representation
// even if there is only one large array.
return true;
}
for (size_t i = 0; i < templateShape->slotSpan(); i++) {
// We can't use an unboxed representation if e.g. all the objects have
// a null value for one of the properties, as we can't decide what type
// it is supposed to have.
if (UnboxedTypeSize(properties[i].type) == 0)
return true;
}
// Make sure that all properties on the template shape are property
// names, and not indexes.
for (Shape::Range<NoGC> r(templateShape); !r.empty(); r.popFront()) {
jsid id = r.front().propid();
uint32_t dummy;
if (!JSID_IS_ATOM(id) || JSID_TO_ATOM(id)->isIndex(&dummy))
return true;
}
layoutSize = ComputePlainObjectLayout(cx, templateShape, properties);
// The entire object must be allocatable inline.
if (UnboxedPlainObject::offsetOfData() + layoutSize > JSObject::MAX_BYTE_SIZE)
return true;
}
UniquePtr<UnboxedLayout>& layout = enter.unboxedLayoutToCleanUp;
MOZ_ASSERT(!layout);
layout = group->zone()->make_unique<UnboxedLayout>();
if (!layout)
return false;
if (isArray) {
layout->initArray(elementType);
} else {
if (!layout->initProperties(properties, layoutSize))
return false;
// The unboxedLayouts list only tracks layouts for plain objects.
cx->compartment()->unboxedLayouts.insertFront(layout.get());
if (!SetLayoutTraceList(cx, layout.get()))
return false;
}
// We've determined that all the preliminary objects can use the new layout
// just constructed, so convert the existing group to use the unboxed class,
// and update the preliminary objects to use the new layout. Do the
// fallible stuff first before modifying any objects.
// Get an empty shape which we can use for the preliminary objects.
const Class* clasp = &UnboxedPlainObject::class_;
Shape* newShape = EmptyShape::getInitialShape(cx, clasp, group->proto(), 0);
if (!newShape) {
cx->recoverFromOutOfMemory();
return false;
}
// Accumulate a list of all the values in each preliminary object, and
// update their shapes.
Rooted<GCVector<Value>> values(cx, GCVector<Value>(cx));
for (size_t i = 0; i < PreliminaryObjectArray::COUNT; i++) {
JSObject* obj = objects->get(i);
if (!obj)
continue;
bool ok;
if (isArray)
ok = GetValuesFromPreliminaryArrayObject(&obj->as<ArrayObject>(), &values);
else
ok = GetValuesFromPreliminaryPlainObject(&obj->as<PlainObject>(), &values);
if (!ok) {
cx->recoverFromOutOfMemory();
return false;
}
}
if (TypeNewScript* newScript = group->newScript())
layout->setNewScript(newScript);
for (size_t i = 0; i < PreliminaryObjectArray::COUNT; i++) {
if (JSObject* obj = objects->get(i))
obj->as<NativeObject>().setLastPropertyMakeNonNative(newShape);
}
group->setClasp(clasp);
group->setUnboxedLayout(layout.release());
size_t valueCursor = 0;
for (size_t i = 0; i < PreliminaryObjectArray::COUNT; i++) {
JSObject* obj = objects->get(i);
if (!obj)
continue;
obj->as<UnboxedPlainObject>().fillAfterConvert(cx, values, &valueCursor);
}
MOZ_ASSERT(valueCursor == values.length());
return true;
}
DefineBoxedOrUnboxedFunctor6(SetOrExtendBoxedOrUnboxedDenseElements,
ExclusiveContext*, JSObject*, uint32_t, const Value*, uint32_t,
ShouldUpdateTypes);
DenseElementResult
js::SetOrExtendAnyBoxedOrUnboxedDenseElements(ExclusiveContext* cx, JSObject* obj,
uint32_t start, const Value* vp, uint32_t count,
ShouldUpdateTypes updateTypes)
{
SetOrExtendBoxedOrUnboxedDenseElementsFunctor functor(cx, obj, start, vp, count, updateTypes);
return CallBoxedOrUnboxedSpecialization(functor, obj);
};
DefineBoxedOrUnboxedFunctor5(MoveBoxedOrUnboxedDenseElements,
JSContext*, JSObject*, uint32_t, uint32_t, uint32_t);
DenseElementResult
js::MoveAnyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* obj,
uint32_t dstStart, uint32_t srcStart, uint32_t length)
{
MoveBoxedOrUnboxedDenseElementsFunctor functor(cx, obj, dstStart, srcStart, length);
return CallBoxedOrUnboxedSpecialization(functor, obj);
}
DefineBoxedOrUnboxedFunctorPair6(CopyBoxedOrUnboxedDenseElements,
JSContext*, JSObject*, JSObject*, uint32_t, uint32_t, uint32_t);
DenseElementResult
js::CopyAnyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* dst, JSObject* src,
uint32_t dstStart, uint32_t srcStart, uint32_t length)
{
CopyBoxedOrUnboxedDenseElementsFunctor functor(cx, dst, src, dstStart, srcStart, length);
return CallBoxedOrUnboxedSpecialization(functor, dst, src);
}
DefineBoxedOrUnboxedFunctor3(SetBoxedOrUnboxedInitializedLength,
JSContext*, JSObject*, size_t);
void
js::SetAnyBoxedOrUnboxedInitializedLength(JSContext* cx, JSObject* obj, size_t initlen)
{
SetBoxedOrUnboxedInitializedLengthFunctor functor(cx, obj, initlen);
JS_ALWAYS_TRUE(CallBoxedOrUnboxedSpecialization(functor, obj) == DenseElementResult::Success);
}
DefineBoxedOrUnboxedFunctor3(EnsureBoxedOrUnboxedDenseElements,
JSContext*, JSObject*, size_t);
DenseElementResult
js::EnsureAnyBoxedOrUnboxedDenseElements(JSContext* cx, JSObject* obj, size_t initlen)
{
EnsureBoxedOrUnboxedDenseElementsFunctor functor(cx, obj, initlen);
return CallBoxedOrUnboxedSpecialization(functor, obj);
}
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