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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* vim: set ts=8 sts=2 et sw=2 tw=80:
* 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/. */
#ifndef builtin_ModuleObject_h
#define builtin_ModuleObject_h
#include "mozilla/HashTable.h" // mozilla::{HashMap, DefaultHasher}
#include "mozilla/Maybe.h" // mozilla::Maybe
#include "mozilla/Span.h"
#include <stddef.h> // size_t
#include <stdint.h> // int32_t, uint32_t
#include "gc/Barrier.h" // HeapPtr
#include "gc/ZoneAllocator.h" // CellAllocPolicy
#include "js/Class.h" // JSClass, ObjectOpResult
#include "js/GCVector.h"
#include "js/Id.h" // jsid
#include "js/Modules.h"
#include "js/Proxy.h" // BaseProxyHandler
#include "js/RootingAPI.h" // Rooted, Handle, MutableHandle
#include "js/TypeDecls.h" // HandleValue, HandleId, HandleObject, HandleScript, MutableHandleValue, MutableHandleIdVector, MutableHandleObject
#include "js/UniquePtr.h" // UniquePtr
#include "vm/JSObject.h" // JSObject
#include "vm/NativeObject.h" // NativeObject
#include "vm/ProxyObject.h" // ProxyObject
#include "vm/SharedStencil.h" // FunctionDeclarationVector
class JSAtom;
class JSScript;
class JSTracer;
namespace JS {
class PropertyDescriptor;
class Value;
} // namespace JS
namespace js {
class ArrayObject;
class CyclicModuleFields;
class ListObject;
class ModuleEnvironmentObject;
class ModuleObject;
class PromiseObject;
class ScriptSourceObject;
class ModuleRequestObject : public NativeObject {
public:
enum { SpecifierSlot = 0, AssertionSlot, SlotCount };
static const JSClass class_;
static bool isInstance(HandleValue value);
[[nodiscard]] static ModuleRequestObject* create(
JSContext* cx, Handle<JSAtom*> specifier,
Handle<ArrayObject*> maybeAssertions);
JSAtom* specifier() const;
ArrayObject* assertions() const;
};
using ModuleRequestVector =
GCVector<HeapPtr<ModuleRequestObject*>, 0, SystemAllocPolicy>;
class ImportEntry {
const HeapPtr<ModuleRequestObject*> moduleRequest_;
const HeapPtr<JSAtom*> importName_;
const HeapPtr<JSAtom*> localName_;
const uint32_t lineNumber_;
const uint32_t columnNumber_;
public:
ImportEntry(Handle<ModuleRequestObject*> moduleRequest,
Handle<JSAtom*> maybeImportName, Handle<JSAtom*> localName,
uint32_t lineNumber, uint32_t columnNumber);
ModuleRequestObject* moduleRequest() const { return moduleRequest_; }
JSAtom* importName() const { return importName_; }
JSAtom* localName() const { return localName_; }
uint32_t lineNumber() const { return lineNumber_; }
uint32_t columnNumber() const { return columnNumber_; }
void trace(JSTracer* trc);
};
using ImportEntryVector = GCVector<ImportEntry, 0, SystemAllocPolicy>;
class ExportEntry {
const HeapPtr<JSAtom*> exportName_;
const HeapPtr<ModuleRequestObject*> moduleRequest_;
const HeapPtr<JSAtom*> importName_;
const HeapPtr<JSAtom*> localName_;
const uint32_t lineNumber_;
const uint32_t columnNumber_;
public:
ExportEntry(Handle<JSAtom*> maybeExportName,
Handle<ModuleRequestObject*> maybeModuleRequest,
Handle<JSAtom*> maybeImportName, Handle<JSAtom*> maybeLocalName,
uint32_t lineNumber, uint32_t columnNumber);
JSAtom* exportName() const { return exportName_; }
ModuleRequestObject* moduleRequest() const { return moduleRequest_; }
JSAtom* importName() const { return importName_; }
JSAtom* localName() const { return localName_; }
uint32_t lineNumber() const { return lineNumber_; }
uint32_t columnNumber() const { return columnNumber_; }
void trace(JSTracer* trc);
};
using ExportEntryVector = GCVector<ExportEntry, 0, SystemAllocPolicy>;
class RequestedModule {
const HeapPtr<ModuleRequestObject*> moduleRequest_;
const uint32_t lineNumber_;
const uint32_t columnNumber_;
public:
RequestedModule(Handle<ModuleRequestObject*> moduleRequest,
uint32_t lineNumber, uint32_t columnNumber);
ModuleRequestObject* moduleRequest() const { return moduleRequest_; }
uint32_t lineNumber() const { return lineNumber_; }
uint32_t columnNumber() const { return columnNumber_; }
void trace(JSTracer* trc);
};
using RequestedModuleVector = GCVector<RequestedModule, 0, SystemAllocPolicy>;
class ResolvedBindingObject : public NativeObject {
public:
enum { ModuleSlot = 0, BindingNameSlot, SlotCount };
static const JSClass class_;
static bool isInstance(HandleValue value);
static ResolvedBindingObject* create(JSContext* cx,
Handle<ModuleObject*> module,
Handle<JSAtom*> bindingName);
ModuleObject* module() const;
JSAtom* bindingName() const;
};
class IndirectBindingMap {
public:
void trace(JSTracer* trc);
bool put(JSContext* cx, HandleId name,
Handle<ModuleEnvironmentObject*> environment, HandleId targetName);
size_t count() const { return map_ ? map_->count() : 0; }
bool has(jsid name) const { return map_ ? map_->has(name) : false; }
bool lookup(jsid name, ModuleEnvironmentObject** envOut,
mozilla::Maybe<PropertyInfo>* propOut) const;
template <typename Func>
void forEachExportedName(Func func) const {
if (!map_) {
return;
}
for (auto r = map_->all(); !r.empty(); r.popFront()) {
func(r.front().key());
}
}
private:
struct Binding {
Binding(ModuleEnvironmentObject* environment, jsid targetName,
PropertyInfo prop);
HeapPtr<ModuleEnvironmentObject*> environment;
#ifdef DEBUG
HeapPtr<jsid> targetName;
#endif
PropertyInfo prop;
};
using Map = mozilla::HashMap<PreBarriered<jsid>, Binding,
mozilla::DefaultHasher<PreBarriered<jsid>>,
CellAllocPolicy>;
mozilla::Maybe<Map> map_;
};
// Vector of atoms representing the names exported from a module namespace.
//
// Barriers are not required because this is either used as a root, or a
// non-mutable field of ModuleNamespaceObject. Don't change this without adding
// barriers.
using ExportNameVector = GCVector<JSAtom*, 0, SystemAllocPolicy>;
class ModuleNamespaceObject : public ProxyObject {
public:
enum ModuleNamespaceSlot { ExportsSlot = 0, BindingsSlot };
static bool isInstance(HandleValue value);
static ModuleNamespaceObject* create(
JSContext* cx, Handle<ModuleObject*> module,
MutableHandle<UniquePtr<ExportNameVector>> exports,
MutableHandle<UniquePtr<IndirectBindingMap>> bindings);
ModuleObject& module();
const ExportNameVector& exports() const;
IndirectBindingMap& bindings();
bool addBinding(JSContext* cx, Handle<JSAtom*> exportedName,
Handle<ModuleObject*> targetModule,
Handle<JSAtom*> targetName);
private:
struct ProxyHandler : public BaseProxyHandler {
ProxyHandler();
bool getOwnPropertyDescriptor(
JSContext* cx, HandleObject proxy, HandleId id,
MutableHandle<mozilla::Maybe<PropertyDescriptor>> desc) const override;
bool defineProperty(JSContext* cx, HandleObject proxy, HandleId id,
Handle<PropertyDescriptor> desc,
ObjectOpResult& result) const override;
bool ownPropertyKeys(JSContext* cx, HandleObject proxy,
MutableHandleIdVector props) const override;
bool delete_(JSContext* cx, HandleObject proxy, HandleId id,
ObjectOpResult& result) const override;
bool getPrototype(JSContext* cx, HandleObject proxy,
MutableHandleObject protop) const override;
bool setPrototype(JSContext* cx, HandleObject proxy, HandleObject proto,
ObjectOpResult& result) const override;
bool getPrototypeIfOrdinary(JSContext* cx, HandleObject proxy,
bool* isOrdinary,
MutableHandleObject protop) const override;
bool setImmutablePrototype(JSContext* cx, HandleObject proxy,
bool* succeeded) const override;
bool preventExtensions(JSContext* cx, HandleObject proxy,
ObjectOpResult& result) const override;
bool isExtensible(JSContext* cx, HandleObject proxy,
bool* extensible) const override;
bool has(JSContext* cx, HandleObject proxy, HandleId id,
bool* bp) const override;
bool get(JSContext* cx, HandleObject proxy, HandleValue receiver,
HandleId id, MutableHandleValue vp) const override;
bool set(JSContext* cx, HandleObject proxy, HandleId id, HandleValue v,
HandleValue receiver, ObjectOpResult& result) const override;
void trace(JSTracer* trc, JSObject* proxy) const override;
void finalize(JS::GCContext* gcx, JSObject* proxy) const override;
static const char family;
};
bool hasBindings() const;
bool hasExports() const;
ExportNameVector& mutableExports();
public:
static const ProxyHandler proxyHandler;
};
// Value types of [[Status]] in a Cyclic Module Record
// https://tc39.es/ecma262/#table-cyclic-module-fields
enum class ModuleStatus : int8_t {
Unlinked,
Linking,
Linked,
Evaluating,
EvaluatingAsync,
Evaluated,
// Sub-state of Evaluated with error value set.
//
// This is not returned from ModuleObject::status(); use hadEvaluationError()
// to check this.
Evaluated_Error
};
// Special values for CyclicModuleFields' asyncEvaluatingPostOrderSlot field,
// which is used as part of the implementation of the AsyncEvaluation field of
// cyclic module records.
//
// The spec requires us to be able to tell the order in which the field was set
// to true for async evaluating modules.
//
// This is arranged by using an integer to record the order. After evaluation is
// complete the value is set to ASYNC_EVALUATING_POST_ORDER_CLEARED.
//
// See https://tc39.es/ecma262/#sec-cyclic-module-records for field defintion.
// See https://tc39.es/ecma262/#sec-async-module-execution-fulfilled for sort
// requirement.
// Initial value for the runtime's counter used to generate these values.
constexpr uint32_t ASYNC_EVALUATING_POST_ORDER_INIT = 1;
// Value that the field is set to after being cleared.
constexpr uint32_t ASYNC_EVALUATING_POST_ORDER_CLEARED = 0;
class ModuleObject : public NativeObject {
public:
// Module fields including those for AbstractModuleRecords described by:
// https://tc39.es/ecma262/#sec-abstract-module-records
enum ModuleSlot {
ScriptSlot = 0,
EnvironmentSlot,
NamespaceSlot,
CyclicModuleFieldsSlot,
SlotCount
};
static const JSClass class_;
static bool isInstance(HandleValue value);
static ModuleObject* create(JSContext* cx);
// Initialize the slots on this object that are dependent on the script.
void initScriptSlots(HandleScript script);
void setInitialEnvironment(
Handle<ModuleEnvironmentObject*> initialEnvironment);
void initFunctionDeclarations(UniquePtr<FunctionDeclarationVector> decls);
void initImportExportData(
MutableHandle<RequestedModuleVector> requestedModules,
MutableHandle<ImportEntryVector> importEntries,
MutableHandle<ExportEntryVector> exportEntries, uint32_t localExportCount,
uint32_t indirectExportCount, uint32_t starExportCount);
static bool Freeze(JSContext* cx, Handle<ModuleObject*> self);
#ifdef DEBUG
static bool AssertFrozen(JSContext* cx, Handle<ModuleObject*> self);
#endif
JSScript* maybeScript() const;
JSScript* script() const;
ModuleEnvironmentObject& initialEnvironment() const;
ModuleEnvironmentObject* environment() const;
ModuleNamespaceObject* namespace_();
ModuleStatus status() const;
mozilla::Maybe<uint32_t> maybeDfsIndex() const;
uint32_t dfsIndex() const;
mozilla::Maybe<uint32_t> maybeDfsAncestorIndex() const;
uint32_t dfsAncestorIndex() const;
bool hadEvaluationError() const;
Value maybeEvaluationError() const;
Value evaluationError() const;
JSObject* metaObject() const;
ScriptSourceObject* scriptSourceObject() const;
mozilla::Span<const RequestedModule> requestedModules() const;
mozilla::Span<const ImportEntry> importEntries() const;
mozilla::Span<const ExportEntry> localExportEntries() const;
mozilla::Span<const ExportEntry> indirectExportEntries() const;
mozilla::Span<const ExportEntry> starExportEntries() const;
IndirectBindingMap& importBindings();
void setStatus(ModuleStatus newStatus);
void setDfsIndex(uint32_t index);
void setDfsAncestorIndex(uint32_t index);
void clearDfsIndexes();
static PromiseObject* createTopLevelCapability(JSContext* cx,
Handle<ModuleObject*> module);
bool hasTopLevelAwait() const;
bool isAsyncEvaluating() const;
void setAsyncEvaluating();
void setEvaluationError(HandleValue newValue);
void setPendingAsyncDependencies(uint32_t newValue);
void setInitialTopLevelCapability(Handle<PromiseObject*> capability);
bool hasTopLevelCapability() const;
PromiseObject* maybeTopLevelCapability() const;
PromiseObject* topLevelCapability() const;
ListObject* asyncParentModules() const;
mozilla::Maybe<uint32_t> maybePendingAsyncDependencies() const;
uint32_t pendingAsyncDependencies() const;
mozilla::Maybe<uint32_t> maybeAsyncEvaluatingPostOrder() const;
uint32_t getAsyncEvaluatingPostOrder() const;
void clearAsyncEvaluatingPostOrder();
void setCycleRoot(ModuleObject* cycleRoot);
ModuleObject* getCycleRoot() const;
static void onTopLevelEvaluationFinished(ModuleObject* module);
static bool appendAsyncParentModule(JSContext* cx, Handle<ModuleObject*> self,
Handle<ModuleObject*> parent);
[[nodiscard]] static bool topLevelCapabilityResolve(
JSContext* cx, Handle<ModuleObject*> module);
[[nodiscard]] static bool topLevelCapabilityReject(
JSContext* cx, Handle<ModuleObject*> module, HandleValue error);
void setMetaObject(JSObject* obj);
static bool instantiateFunctionDeclarations(JSContext* cx,
Handle<ModuleObject*> self);
static bool execute(JSContext* cx, Handle<ModuleObject*> self);
static ModuleNamespaceObject* createNamespace(
JSContext* cx, Handle<ModuleObject*> self,
MutableHandle<UniquePtr<ExportNameVector>> exports);
static bool createEnvironment(JSContext* cx, Handle<ModuleObject*> self);
void initAsyncSlots(JSContext* cx, bool hasTopLevelAwait,
Handle<ListObject*> asyncParentModules);
private:
static const JSClassOps classOps_;
static void trace(JSTracer* trc, JSObject* obj);
static void finalize(JS::GCContext* gcx, JSObject* obj);
bool hasCyclicModuleFields() const;
CyclicModuleFields* cyclicModuleFields();
const CyclicModuleFields* cyclicModuleFields() const;
};
JSObject* GetOrCreateModuleMetaObject(JSContext* cx, HandleObject module);
ModuleObject* CallModuleResolveHook(JSContext* cx,
HandleValue referencingPrivate,
HandleObject moduleRequest);
JSObject* StartDynamicModuleImport(JSContext* cx, HandleScript script,
HandleValue specifier, HandleValue options);
bool OnModuleEvaluationFailure(JSContext* cx, HandleObject evaluationPromise,
JS::ModuleErrorBehaviour errorBehaviour);
bool FinishDynamicModuleImport(JSContext* cx, HandleObject evaluationPromise,
HandleValue referencingPrivate,
HandleObject moduleRequest,
HandleObject promise);
} // namespace js
template <>
inline bool JSObject::is<js::ModuleNamespaceObject>() const {
return js::IsDerivedProxyObject(this,
&js::ModuleNamespaceObject::proxyHandler);
}
#endif /* builtin_ModuleObject_h */
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