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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
 * 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 jscompartment_h
#define jscompartment_h

#include "mozilla/LinkedList.h"
#include "mozilla/Maybe.h"
#include "mozilla/MemoryReporting.h"
#include "mozilla/Tuple.h"
#include "mozilla/Variant.h"
#include "mozilla/XorShift128PlusRNG.h"

#include "builtin/RegExp.h"
#include "gc/Barrier.h"
#include "gc/NurseryAwareHashMap.h"
#include "gc/Zone.h"
#include "vm/GlobalObject.h"
#include "vm/PIC.h"
#include "vm/SavedStacks.h"
#include "vm/Time.h"
#include "wasm/WasmCompartment.h"

namespace js {

namespace jit {
class JitCompartment;
} // namespace jit

namespace gc {
template <typename Node, typename Derived> class ComponentFinder;
} // namespace gc

class LexicalEnvironmentObject;
class ScriptSourceObject;
struct NativeIterator;

/*
 * A single-entry cache for some base-10 double-to-string conversions. This
 * helps date-format-xparb.js.  It also avoids skewing the results for
 * v8-splay.js when measured by the SunSpider harness, where the splay tree
 * initialization (which includes many repeated double-to-string conversions)
 * is erroneously included in the measurement; see bug 562553.
 */
class DtoaCache {
    double       d;
    int          base;
    JSFlatString* s;      // if s==nullptr, d and base are not valid

  public:
    DtoaCache() : s(nullptr) {}
    void purge() { s = nullptr; }

    JSFlatString* lookup(int base, double d) {
        return this->s && base == this->base && d == this->d ? this->s : nullptr;
    }

    void cache(int base, double d, JSFlatString* s) {
        this->base = base;
        this->d = d;
        this->s = s;
    }

#ifdef JSGC_HASH_TABLE_CHECKS
    void checkCacheAfterMovingGC() { MOZ_ASSERT(!s || !IsForwarded(s)); }
#endif
};

class CrossCompartmentKey
{
  public:
    enum DebuggerObjectKind : uint8_t { DebuggerSource, DebuggerEnvironment, DebuggerObject,
                                        DebuggerWasmScript, DebuggerWasmSource };
    using DebuggerAndObject = mozilla::Tuple<NativeObject*, JSObject*, DebuggerObjectKind>;
    using DebuggerAndScript = mozilla::Tuple<NativeObject*, JSScript*>;
    using WrappedType = mozilla::Variant<
        JSObject*,
        JSString*,
        DebuggerAndScript,
        DebuggerAndObject>;

    explicit CrossCompartmentKey(JSObject* obj) : wrapped(obj) { MOZ_RELEASE_ASSERT(obj); }
    explicit CrossCompartmentKey(JSString* str) : wrapped(str) { MOZ_RELEASE_ASSERT(str); }
    explicit CrossCompartmentKey(const JS::Value& v)
      : wrapped(v.isString() ? WrappedType(v.toString()) : WrappedType(&v.toObject()))
    {}
    explicit CrossCompartmentKey(NativeObject* debugger, JSObject* obj, DebuggerObjectKind kind)
      : wrapped(DebuggerAndObject(debugger, obj, kind))
    {
        MOZ_RELEASE_ASSERT(debugger);
        MOZ_RELEASE_ASSERT(obj);
    }
    explicit CrossCompartmentKey(NativeObject* debugger, JSScript* script)
      : wrapped(DebuggerAndScript(debugger, script))
    {
        MOZ_RELEASE_ASSERT(debugger);
        MOZ_RELEASE_ASSERT(script);
    }

    bool operator==(const CrossCompartmentKey& other) const { return wrapped == other.wrapped; }
    bool operator!=(const CrossCompartmentKey& other) const { return wrapped != other.wrapped; }

    template <typename T> bool is() const { return wrapped.is<T>(); }
    template <typename T> const T& as() const { return wrapped.as<T>(); }

    template <typename F>
    auto applyToWrapped(F f) -> decltype(f(static_cast<JSObject**>(nullptr))) {
        using ReturnType = decltype(f(static_cast<JSObject**>(nullptr)));
        struct WrappedMatcher {
            F f_;
            explicit WrappedMatcher(F f) : f_(f) {}
            ReturnType match(JSObject*& obj) { return f_(&obj); }
            ReturnType match(JSString*& str) { return f_(&str); }
            ReturnType match(DebuggerAndScript& tpl) { return f_(&mozilla::Get<1>(tpl)); }
            ReturnType match(DebuggerAndObject& tpl) { return f_(&mozilla::Get<1>(tpl)); }
        } matcher(f);
        return wrapped.match(matcher);
    }

    template <typename F>
    auto applyToDebugger(F f) -> decltype(f(static_cast<NativeObject**>(nullptr))) {
        using ReturnType = decltype(f(static_cast<NativeObject**>(nullptr)));
        struct DebuggerMatcher {
            F f_;
            explicit DebuggerMatcher(F f) : f_(f) {}
            ReturnType match(JSObject*& obj) { return ReturnType(); }
            ReturnType match(JSString*& str) { return ReturnType(); }
            ReturnType match(DebuggerAndScript& tpl) { return f_(&mozilla::Get<0>(tpl)); }
            ReturnType match(DebuggerAndObject& tpl) { return f_(&mozilla::Get<0>(tpl)); }
        } matcher(f);
        return wrapped.match(matcher);
    }

    // Valid for JSObject* and Debugger keys. Crashes immediately if used on a
    // JSString* key.
    JSCompartment* compartment() {
        struct GetCompartmentFunctor {
            JSCompartment* operator()(JSObject** tp) const { return (*tp)->compartment(); }
            JSCompartment* operator()(JSScript** tp) const { return (*tp)->compartment(); }
            JSCompartment* operator()(JSString** tp) const {
                MOZ_CRASH("invalid ccw key"); return nullptr;
            }
        };
        return applyToWrapped(GetCompartmentFunctor());
    }

    struct Hasher : public DefaultHasher<CrossCompartmentKey>
    {
        struct HashFunctor {
            HashNumber match(JSObject* obj) { return DefaultHasher<JSObject*>::hash(obj); }
            HashNumber match(JSString* str) { return DefaultHasher<JSString*>::hash(str); }
            HashNumber match(const DebuggerAndScript& tpl) {
                return DefaultHasher<NativeObject*>::hash(mozilla::Get<0>(tpl)) ^
                       DefaultHasher<JSScript*>::hash(mozilla::Get<1>(tpl));
            }
            HashNumber match(const DebuggerAndObject& tpl) {
                return DefaultHasher<NativeObject*>::hash(mozilla::Get<0>(tpl)) ^
                       DefaultHasher<JSObject*>::hash(mozilla::Get<1>(tpl)) ^
                       (mozilla::Get<2>(tpl) << 5);
            }
        };
        static HashNumber hash(const CrossCompartmentKey& key) {
            return key.wrapped.match(HashFunctor());
        }

        static bool match(const CrossCompartmentKey& l, const CrossCompartmentKey& k) {
            return l.wrapped == k.wrapped;
        }
    };

    bool isTenured() const {
        struct IsTenuredFunctor {
            using ReturnType = bool;
            ReturnType operator()(JSObject** tp) { return !IsInsideNursery(*tp); }
            ReturnType operator()(JSScript** tp) { return true; }
            ReturnType operator()(JSString** tp) { return true; }
        };
        return const_cast<CrossCompartmentKey*>(this)->applyToWrapped(IsTenuredFunctor());
    }

    void trace(JSTracer* trc);
    bool needsSweep();

  private:
    CrossCompartmentKey() = delete;
    WrappedType wrapped;
};


using WrapperMap = NurseryAwareHashMap<CrossCompartmentKey, JS::Value,
                                       CrossCompartmentKey::Hasher, SystemAllocPolicy>;

// We must ensure that all newly allocated JSObjects get their metadata
// set. However, metadata builders may require the new object be in a sane
// state (eg, have its reserved slots initialized so they can get the
// sizeOfExcludingThis of the object). Therefore, for objects of certain
// JSClasses (those marked with JSCLASS_DELAY_METADATA_BUILDER), it is not safe
// for the allocation paths to call the object metadata builder
// immediately. Instead, the JSClass-specific "constructor" C++ function up the
// stack makes a promise that it will ensure that the new object has its
// metadata set after the object is initialized.
//
// To help those constructor functions keep their promise of setting metadata,
// each compartment is in one of three states at any given time:
//
// * ImmediateMetadata: Allocators should set new object metadata immediately,
//                      as usual.
//
// * DelayMetadata: Allocators should *not* set new object metadata, it will be
//                  handled after reserved slots are initialized by custom code
//                  for the object's JSClass. The newly allocated object's
//                  JSClass *must* have the JSCLASS_DELAY_METADATA_BUILDER flag
//                  set.
//
// * PendingMetadata: This object has been allocated and is still pending its
//                    metadata. This should never be the case when we begin an
//                    allocation, as a constructor function was supposed to have
//                    set the metadata of the previous object *before*
//                    allocating another object.
//
// The js::AutoSetNewObjectMetadata RAII class provides an ergonomic way for
// constructor functions to navigate state transitions, and its instances
// collectively maintain a stack of previous states. The stack is required to
// support the lazy resolution and allocation of global builtin constructors and
// prototype objects. The initial (and intuitively most common) state is
// ImmediateMetadata.
//
// Without the presence of internal errors (such as OOM), transitions between
// the states are as follows:
//
//     ImmediateMetadata                 .----- previous state on stack
//           |                           |          ^
//           | via constructor           |          |
//           |                           |          | via setting the new
//           |        via constructor    |          | object's metadata
//           |   .-----------------------'          |
//           |   |                                  |
//           V   V                                  |
//     DelayMetadata -------------------------> PendingMetadata
//                         via allocation
//
// In the presence of internal errors, we do not set the new object's metadata
// (if it was even allocated) and reset to the previous state on the stack.

struct ImmediateMetadata { };
struct DelayMetadata { };
using PendingMetadata = JSObject*;

using NewObjectMetadataState = mozilla::Variant<ImmediateMetadata,
                                                DelayMetadata,
                                                PendingMetadata>;

class MOZ_RAII AutoSetNewObjectMetadata : private JS::CustomAutoRooter
{
    MOZ_DECL_USE_GUARD_OBJECT_NOTIFIER;

    JSContext* cx_;
    NewObjectMetadataState prevState_;

    AutoSetNewObjectMetadata(const AutoSetNewObjectMetadata& aOther) = delete;
    void operator=(const AutoSetNewObjectMetadata& aOther) = delete;

  protected:
    virtual void trace(JSTracer* trc) override {
        if (prevState_.is<PendingMetadata>()) {
            TraceRoot(trc,
                      &prevState_.as<PendingMetadata>(),
                      "Object pending metadata");
        }
    }

  public:
    explicit AutoSetNewObjectMetadata(ExclusiveContext* ecx MOZ_GUARD_OBJECT_NOTIFIER_PARAM);
    ~AutoSetNewObjectMetadata();
};

} /* namespace js */

namespace js {
class DebugEnvironments;
class ObjectWeakMap;
class WeakMapBase;
} // namespace js

struct JSCompartment
{
    const JS::CompartmentCreationOptions creationOptions_;
    JS::CompartmentBehaviors behaviors_;

  private:
    JS::Zone*                    zone_;
    JSRuntime*                   runtime_;

  public:
    /*
     * The principals associated with this compartment. Note that the
     * same several compartments may share the same principals and
     * that a compartment may change principals during its lifetime
     * (e.g. in case of lazy parsing).
     */
    inline JSPrincipals* principals() {
        return principals_;
    }
    inline void setPrincipals(JSPrincipals* principals) {
        if (principals_ == principals)
            return;

        // If we change principals, we need to unlink immediately this
        // compartment from its PerformanceGroup. For one thing, the
        // performance data we collect should not be improperly associated
        // with a group to which we do not belong anymore. For another thing,
        // we use `principals()` as part of the key to map compartments
        // to a `PerformanceGroup`, so if we do not unlink now, this will
        // be too late once we have updated `principals_`.
        performanceMonitoring.unlink();
        principals_ = principals;
    }
    inline bool isSystem() const {
        return isSystem_;
    }
    inline void setIsSystem(bool isSystem) {
        if (isSystem_ == isSystem)
            return;

        // If we change `isSystem*(`, we need to unlink immediately this
        // compartment from its PerformanceGroup. For one thing, the
        // performance data we collect should not be improperly associated
        // to a group to which we do not belong anymore. For another thing,
        // we use `isSystem()` as part of the key to map compartments
        // to a `PerformanceGroup`, so if we do not unlink now, this will
        // be too late once we have updated `isSystem_`.
        performanceMonitoring.unlink();
        isSystem_ = isSystem;
    }

    bool isAtomsCompartment() const {
        return isAtomsCompartment_;
    }
    void setIsAtomsCompartment() {
        isAtomsCompartment_ = true;
    }

  private:
    JSPrincipals*                principals_;
    bool                         isSystem_;
    bool                         isAtomsCompartment_;

  public:
    bool                         isSelfHosting;
    bool                         marked;
    bool                         warnedAboutExprClosure;
    bool                         warnedAboutForEach;

#ifdef DEBUG
    bool                         firedOnNewGlobalObject;
#endif

    void mark() { marked = true; }

  private:
    friend struct JSRuntime;
    friend struct JSContext;
    friend class js::ExclusiveContext;
    js::ReadBarrieredGlobalObject global_;

    unsigned                     enterCompartmentDepth;
    int64_t                      startInterval;

  public:
    js::PerformanceGroupHolder performanceMonitoring;

    void enter() {
        enterCompartmentDepth++;
    }
    void leave() {
        enterCompartmentDepth--;
    }
    bool hasBeenEntered() { return !!enterCompartmentDepth; }

    JS::Zone* zone() { return zone_; }
    const JS::Zone* zone() const { return zone_; }

    const JS::CompartmentCreationOptions& creationOptions() const { return creationOptions_; }
    JS::CompartmentBehaviors& behaviors() { return behaviors_; }
    const JS::CompartmentBehaviors& behaviors() const { return behaviors_; }

    JSRuntime* runtimeFromMainThread() const {
        MOZ_ASSERT(CurrentThreadCanAccessRuntime(runtime_));
        return runtime_;
    }

    // Note: Unrestricted access to the zone's runtime from an arbitrary
    // thread can easily lead to races. Use this method very carefully.
    JSRuntime* runtimeFromAnyThread() const {
        return runtime_;
    }

    JSContext* contextFromMainThread() const {
        return runtime_->contextFromMainThread();
    }

    /*
     * Nb: global_ might be nullptr, if (a) it's the atoms compartment, or
     * (b) the compartment's global has been collected.  The latter can happen
     * if e.g. a string in a compartment is rooted but no object is, and thus
     * the global isn't rooted, and thus the global can be finalized while the
     * compartment lives on.
     *
     * In contrast, JSObject::global() is infallible because marking a JSObject
     * always marks its global as well.
     * TODO: add infallible JSScript::global()
     */
    inline js::GlobalObject* maybeGlobal() const;

    /* An unbarriered getter for use while tracing. */
    inline js::GlobalObject* unsafeUnbarrieredMaybeGlobal() const;

    inline void initGlobal(js::GlobalObject& global);

  public:
    void*                        data;

  private:
    const js::AllocationMetadataBuilder *allocationMetadataBuilder;

    js::SavedStacks              savedStacks_;

    js::WrapperMap               crossCompartmentWrappers;

    using CCKeyVector = mozilla::Vector<js::CrossCompartmentKey, 0, js::SystemAllocPolicy>;
    CCKeyVector                  nurseryCCKeys;

    // The global environment record's [[VarNames]] list that contains all
    // names declared using FunctionDeclaration, GeneratorDeclaration, and
    // VariableDeclaration declarations in global code in this compartment.
    // Names are only removed from this list by a |delete IdentifierReference|
    // that successfully removes that global property.
    JS::GCHashSet<JSAtom*,
                  js::DefaultHasher<JSAtom*>,
                  js::SystemAllocPolicy> varNames_;

  public:
    /* Last time at which an animation was played for a global in this compartment. */
    int64_t                      lastAnimationTime;

    js::RegExpCompartment        regExps;

    /*
     * For generational GC, record whether a write barrier has added this
     * compartment's global to the store buffer since the last minor GC.
     *
     * This is used to avoid calling into the VM every time a nursery object is
     * written to a property of the global.
     */
    uint32_t                     globalWriteBarriered;

    // Non-zero if the storage underlying any typed object in this compartment
    // might be detached.
    int32_t                      detachedTypedObjects;

  private:
    friend class js::AutoSetNewObjectMetadata;
    js::NewObjectMetadataState objectMetadataState;

  public:
    // Recompute the probability with which this compartment should record
    // profiling data (stack traces, allocations log, etc.) about each
    // allocation. We consult the probabilities requested by the Debugger
    // instances observing us, if any.
    void chooseAllocationSamplingProbability() { savedStacks_.chooseSamplingProbability(this); }

    bool hasObjectPendingMetadata() const { return objectMetadataState.is<js::PendingMetadata>(); }

    void setObjectPendingMetadata(JSContext* cx, JSObject* obj) {
        MOZ_ASSERT(objectMetadataState.is<js::DelayMetadata>());
        objectMetadataState = js::NewObjectMetadataState(js::PendingMetadata(obj));
    }

    void setObjectPendingMetadata(js::ExclusiveContext* ecx, JSObject* obj) {
        if (JSContext* cx = ecx->maybeJSContext())
            setObjectPendingMetadata(cx, obj);
    }

  public:
    void addSizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf,
                                size_t* tiAllocationSiteTables,
                                size_t* tiArrayTypeTables,
                                size_t* tiObjectTypeTables,
                                size_t* compartmentObject,
                                size_t* compartmentTables,
                                size_t* innerViews,
                                size_t* lazyArrayBuffers,
                                size_t* objectMetadataTables,
                                size_t* crossCompartmentWrappers,
                                size_t* regexpCompartment,
                                size_t* savedStacksSet,
                                size_t* varNamesSet,
                                size_t* nonSyntacticLexicalScopes,
                                size_t* jitCompartment,
                                size_t* privateData);

    // Object group tables and other state in the compartment.
    js::ObjectGroupCompartment   objectGroups;

#ifdef JSGC_HASH_TABLE_CHECKS
    void checkWrapperMapAfterMovingGC();
    void checkScriptMapsAfterMovingGC();
#endif

    /*
     * Lazily initialized script source object to use for scripts cloned
     * from the self-hosting global.
     */
    js::ReadBarrieredScriptSourceObject selfHostingScriptSource;

    // Keep track of the metadata objects which can be associated with each JS
    // object. Both keys and values are in this compartment.
    js::ObjectWeakMap* objectMetadataTable;

    // Map from array buffers to views sharing that storage.
    JS::WeakCache<js::InnerViewTable> innerViews;

    // Inline transparent typed objects do not initially have an array buffer,
    // but can have that buffer created lazily if it is accessed later. This
    // table manages references from such typed objects to their buffers.
    js::ObjectWeakMap* lazyArrayBuffers;

    // All unboxed layouts in the compartment.
    mozilla::LinkedList<js::UnboxedLayout> unboxedLayouts;

    // WebAssembly state for the compartment.
    js::wasm::Compartment wasm;

  private:
    // All non-syntactic lexical environments in the compartment. These are kept in
    // a map because when loading scripts into a non-syntactic environment, we need
    // to use the same lexical environment to persist lexical bindings.
    js::ObjectWeakMap* nonSyntacticLexicalEnvironments_;

  public:
    /* During GC, stores the index of this compartment in rt->compartments. */
    unsigned                     gcIndex;

    /*
     * During GC, stores the head of a list of incoming pointers from gray cells.
     *
     * The objects in the list are either cross-compartment wrappers, or
     * debugger wrapper objects.  The list link is either in the second extra
     * slot for the former, or a special slot for the latter.
     */
    JSObject*                    gcIncomingGrayPointers;

  private:
    enum {
        IsDebuggee = 1 << 0,
        DebuggerObservesAllExecution = 1 << 1,
        DebuggerObservesAsmJS = 1 << 2,
        DebuggerObservesCoverage = 1 << 3,
        DebuggerNeedsDelazification = 1 << 4
    };

    unsigned debugModeBits;
    friend class AutoRestoreCompartmentDebugMode;

    static const unsigned DebuggerObservesMask = IsDebuggee |
                                                 DebuggerObservesAllExecution |
                                                 DebuggerObservesCoverage |
                                                 DebuggerObservesAsmJS;

    void updateDebuggerObservesFlag(unsigned flag);

    bool getNonWrapperObjectForCurrentCompartment(JSContext* cx, js::MutableHandleObject obj);
    bool getOrCreateWrapper(JSContext* cx, js::HandleObject existing, js::MutableHandleObject obj);

  public:
    JSCompartment(JS::Zone* zone, const JS::CompartmentOptions& options);
    ~JSCompartment();

    MOZ_MUST_USE bool init(JSContext* maybecx);

    MOZ_MUST_USE inline bool wrap(JSContext* cx, JS::MutableHandleValue vp);

    MOZ_MUST_USE bool wrap(JSContext* cx, js::MutableHandleString strp);
    MOZ_MUST_USE bool wrap(JSContext* cx, JS::MutableHandleObject obj);
    MOZ_MUST_USE bool wrap(JSContext* cx, JS::MutableHandle<js::PropertyDescriptor> desc);
    MOZ_MUST_USE bool wrap(JSContext* cx, JS::MutableHandle<JS::GCVector<JS::Value>> vec);
    MOZ_MUST_USE bool rewrap(JSContext* cx, JS::MutableHandleObject obj, JS::HandleObject existing);

    MOZ_MUST_USE bool putWrapper(JSContext* cx, const js::CrossCompartmentKey& wrapped,
                                 const js::Value& wrapper);

    js::WrapperMap::Ptr lookupWrapper(const js::Value& wrapped) const {
        return crossCompartmentWrappers.lookup(js::CrossCompartmentKey(wrapped));
    }

    void removeWrapper(js::WrapperMap::Ptr p) {
        crossCompartmentWrappers.remove(p);
    }

    struct WrapperEnum : public js::WrapperMap::Enum {
        explicit WrapperEnum(JSCompartment* c) : js::WrapperMap::Enum(c->crossCompartmentWrappers) {}
    };

    js::LexicalEnvironmentObject*
    getOrCreateNonSyntacticLexicalEnvironment(JSContext* cx, js::HandleObject enclosing);
    js::LexicalEnvironmentObject* getNonSyntacticLexicalEnvironment(JSObject* enclosing) const;

    /*
     * This method traces data that is live iff we know that this compartment's
     * global is still live.
     */
    void trace(JSTracer* trc);
    /*
     * This method traces JSCompartment-owned GC roots that are considered live
     * regardless of whether the JSCompartment itself is still live.
     */
    void traceRoots(JSTracer* trc, js::gc::GCRuntime::TraceOrMarkRuntime traceOrMark);
    /*
     * This method clears out tables of roots in preparation for the final GC.
     */
    void finishRoots();
    /*
     * These methods mark pointers that cross compartment boundaries. They are
     * called in per-zone GCs to prevent the wrappers' outgoing edges from
     * dangling (full GCs naturally follow pointers across compartments) and
     * when compacting to update cross-compartment pointers.
     */
    void traceOutgoingCrossCompartmentWrappers(JSTracer* trc);
    static void traceIncomingCrossCompartmentEdgesForZoneGC(JSTracer* trc);

    /* Whether to preserve JIT code on non-shrinking GCs. */
    bool preserveJitCode() { return creationOptions_.preserveJitCode(); }

    void sweepAfterMinorGC(JSTracer* trc);

    void sweepCrossCompartmentWrappers();
    void sweepSavedStacks();
    void sweepGlobalObject(js::FreeOp* fop);
    void sweepSelfHostingScriptSource();
    void sweepJitCompartment(js::FreeOp* fop);
    void sweepRegExps();
    void sweepDebugEnvironments();
    void sweepNativeIterators();
    void sweepTemplateObjects();
    void sweepVarNames();

    void purge();
    void clearTables();

    static void fixupCrossCompartmentWrappersAfterMovingGC(JSTracer* trc);
    void fixupAfterMovingGC();
    void fixupGlobal();
    void fixupScriptMapsAfterMovingGC();

    bool hasAllocationMetadataBuilder() const { return allocationMetadataBuilder; }
    const js::AllocationMetadataBuilder* getAllocationMetadataBuilder() const {
        return allocationMetadataBuilder;
    }
    void setAllocationMetadataBuilder(const js::AllocationMetadataBuilder* builder);
    void forgetAllocationMetadataBuilder() {
        allocationMetadataBuilder = nullptr;
    }
    void setNewObjectMetadata(JSContext* cx, JS::HandleObject obj);
    void clearObjectMetadata();
    const void* addressOfMetadataBuilder() const {
        return &allocationMetadataBuilder;
    }

    js::SavedStacks& savedStacks() { return savedStacks_; }

    // Add a name to [[VarNames]].  Reports OOM on failure.
    MOZ_MUST_USE bool addToVarNames(JSContext* cx, JS::Handle<JSAtom*> name);

    void removeFromVarNames(JS::Handle<JSAtom*> name) {
        varNames_.remove(name);
    }

    // Whether the given name is in [[VarNames]].
    bool isInVarNames(JS::Handle<JSAtom*> name) {
        return varNames_.has(name);
    }

    void findOutgoingEdges(js::gc::ZoneComponentFinder& finder);

    js::DtoaCache dtoaCache;

    // Random number generator for Math.random().
    mozilla::Maybe<mozilla::non_crypto::XorShift128PlusRNG> randomNumberGenerator;

    // Initialize randomNumberGenerator if needed.
    void ensureRandomNumberGenerator();

  private:
    mozilla::non_crypto::XorShift128PlusRNG randomKeyGenerator_;

  public:
    js::HashNumber randomHashCode();

    mozilla::HashCodeScrambler randomHashCodeScrambler();

    static size_t offsetOfRegExps() {
        return offsetof(JSCompartment, regExps);
    }

  private:
    JSCompartment* thisForCtor() { return this; }

  public:
    //
    // The Debugger observes execution on a frame-by-frame basis. The
    // invariants of JSCompartment's debug mode bits, JSScript::isDebuggee,
    // InterpreterFrame::isDebuggee, and BaselineFrame::isDebuggee are
    // enumerated below.
    //
    // 1. When a compartment's isDebuggee() == true, relazification and lazy
    //    parsing are disabled.
    //
    //    Whether AOT wasm is disabled is togglable by the Debugger API. By
    //    default it is disabled. See debuggerObservesAsmJS below.
    //
    // 2. When a compartment's debuggerObservesAllExecution() == true, all of
    //    the compartment's scripts are considered debuggee scripts.
    //
    // 3. A script is considered a debuggee script either when, per above, its
    //    compartment is observing all execution, or if it has breakpoints set.
    //
    // 4. A debuggee script always pushes a debuggee frame.
    //
    // 5. A debuggee frame calls all slow path Debugger hooks in the
    //    Interpreter and Baseline. A debuggee frame implies that its script's
    //    BaselineScript, if extant, has been compiled with debug hook calls.
    //
    // 6. A debuggee script or a debuggee frame (i.e., during OSR) ensures
    //    that the compiled BaselineScript is compiled with debug hook calls
    //    when attempting to enter Baseline.
    //
    // 7. A debuggee script or a debuggee frame (i.e., during OSR) does not
    //    attempt to enter Ion.
    //
    // Note that a debuggee frame may exist without its script being a
    // debuggee script. e.g., Debugger.Frame.prototype.eval only marks the
    // frame in which it is evaluating as a debuggee frame.
    //

    // True if this compartment's global is a debuggee of some Debugger
    // object.
    bool isDebuggee() const { return !!(debugModeBits & IsDebuggee); }
    void setIsDebuggee() { debugModeBits |= IsDebuggee; }
    void unsetIsDebuggee();

    // True if this compartment's global is a debuggee of some Debugger
    // object with a live hook that observes all execution; e.g.,
    // onEnterFrame.
    bool debuggerObservesAllExecution() const {
        static const unsigned Mask = IsDebuggee | DebuggerObservesAllExecution;
        return (debugModeBits & Mask) == Mask;
    }
    void updateDebuggerObservesAllExecution() {
        updateDebuggerObservesFlag(DebuggerObservesAllExecution);
    }

    // True if this compartment's global is a debuggee of some Debugger object
    // whose allowUnobservedAsmJS flag is false.
    //
    // Note that since AOT wasm functions cannot bail out, this flag really
    // means "observe wasm from this point forward". We cannot make
    // already-compiled wasm code observable to Debugger.
    bool debuggerObservesAsmJS() const {
        static const unsigned Mask = IsDebuggee | DebuggerObservesAsmJS;
        return (debugModeBits & Mask) == Mask;
    }
    void updateDebuggerObservesAsmJS() {
        updateDebuggerObservesFlag(DebuggerObservesAsmJS);
    }

    // True if this compartment's global is a debuggee of some Debugger object
    // whose collectCoverageInfo flag is true.
    bool debuggerObservesCoverage() const {
        static const unsigned Mask = DebuggerObservesCoverage;
        return (debugModeBits & Mask) == Mask;
    }
    void updateDebuggerObservesCoverage();

    // The code coverage can be enabled either for each compartment, with the
    // Debugger API, or for the entire runtime.
    bool collectCoverage() const;
    bool collectCoverageForDebug() const;
    bool collectCoverageForPGO() const;
    void clearScriptCounts();

    bool needsDelazificationForDebugger() const {
        return debugModeBits & DebuggerNeedsDelazification;
    }

    /*
     * Schedule the compartment to be delazified. Called from
     * LazyScript::Create.
     */
    void scheduleDelazificationForDebugger() { debugModeBits |= DebuggerNeedsDelazification; }

    /*
     * If we scheduled delazification for turning on debug mode, delazify all
     * scripts.
     */
    bool ensureDelazifyScriptsForDebugger(JSContext* cx);

    void clearBreakpointsIn(js::FreeOp* fop, js::Debugger* dbg, JS::HandleObject handler);

  private:
    void sweepBreakpoints(js::FreeOp* fop);

  public:
    js::ScriptCountsMap* scriptCountsMap;

    js::DebugScriptMap* debugScriptMap;

    /* Bookkeeping information for debug scope objects. */
    js::DebugEnvironments* debugEnvs;

    /*
     * List of potentially active iterators that may need deleted property
     * suppression.
     */
    js::NativeIterator* enumerators;

    /* Native iterator most recently started. */
    js::PropertyIteratorObject* lastCachedNativeIterator;

  private:
    /* Used by memory reporters and invalid otherwise. */
    JS::CompartmentStats* compartmentStats_;

  public:
    // This should only be called when it is non-null, i.e. during memory
    // reporting.
    JS::CompartmentStats& compartmentStats() {
        // We use MOZ_RELEASE_ASSERT here because in bug 1132502 there was some
        // (inconclusive) evidence that compartmentStats_ can be nullptr
        // unexpectedly.
        MOZ_RELEASE_ASSERT(compartmentStats_);
        return *compartmentStats_;
    }
    void nullCompartmentStats() {
        MOZ_ASSERT(compartmentStats_);
        compartmentStats_ = nullptr;
    }
    void setCompartmentStats(JS::CompartmentStats* newStats) {
        MOZ_ASSERT(!compartmentStats_ && newStats);
        compartmentStats_ = newStats;
    }

    // These flags help us to discover if a compartment that shouldn't be alive
    // manages to outlive a GC.
    bool scheduledForDestruction;
    bool maybeAlive;

  private:
    js::jit::JitCompartment* jitCompartment_;

    js::ReadBarriered<js::ArgumentsObject*> mappedArgumentsTemplate_;
    js::ReadBarriered<js::ArgumentsObject*> unmappedArgumentsTemplate_;

  public:
    bool ensureJitCompartmentExists(JSContext* cx);
    js::jit::JitCompartment* jitCompartment() {
        return jitCompartment_;
    }

    js::ArgumentsObject* getOrCreateArgumentsTemplateObject(JSContext* cx, bool mapped);

    js::ArgumentsObject* maybeArgumentsTemplateObject(bool mapped) const;

  public:
    // Aggregated output used to collect JSScript hit counts when code coverage
    // is enabled.
    js::coverage::LCovCompartment lcovOutput;
};

inline bool
JSRuntime::isAtomsZone(const JS::Zone* zone) const
{
    return zone == atomsCompartment_->zone();
}

namespace js {

// We only set the maybeAlive flag for objects and scripts. It's assumed that,
// if a compartment is alive, then it will have at least some live object or
// script it in. Even if we get this wrong, the worst that will happen is that
// scheduledForDestruction will be set on the compartment, which will cause
// some extra GC activity to try to free the compartment.
template<typename T> inline void SetMaybeAliveFlag(T* thing) {}
template<> inline void SetMaybeAliveFlag(JSObject* thing) {thing->compartment()->maybeAlive = true;}
template<> inline void SetMaybeAliveFlag(JSScript* thing) {thing->compartment()->maybeAlive = true;}

inline js::Handle<js::GlobalObject*>
ExclusiveContext::global() const
{
    /*
     * It's safe to use |unsafeGet()| here because any compartment that is
     * on-stack will be marked automatically, so there's no need for a read
     * barrier on it. Once the compartment is popped, the handle is no longer
     * safe to use.
     */
    MOZ_ASSERT(compartment_, "Caller needs to enter a compartment first");
    return Handle<GlobalObject*>::fromMarkedLocation(compartment_->global_.unsafeGet());
}

class MOZ_RAII AssertCompartmentUnchanged
{
  public:
    explicit AssertCompartmentUnchanged(JSContext* cx
                                        MOZ_GUARD_OBJECT_NOTIFIER_PARAM)
      : cx(cx), oldCompartment(cx->compartment())
    {
        MOZ_GUARD_OBJECT_NOTIFIER_INIT;
    }

    ~AssertCompartmentUnchanged() {
        MOZ_ASSERT(cx->compartment() == oldCompartment);
    }

  protected:
    JSContext * const cx;
    JSCompartment * const oldCompartment;
    MOZ_DECL_USE_GUARD_OBJECT_NOTIFIER
};

class AutoCompartment
{
    ExclusiveContext * const cx_;
    JSCompartment * const origin_;
    const js::AutoLockForExclusiveAccess* maybeLock_;

  public:
    inline AutoCompartment(ExclusiveContext* cx, JSObject* target,
                           js::AutoLockForExclusiveAccess* maybeLock = nullptr);
    inline AutoCompartment(ExclusiveContext* cx, JSCompartment* target,
                           js::AutoLockForExclusiveAccess* maybeLock = nullptr);
    inline ~AutoCompartment();

    ExclusiveContext* context() const { return cx_; }
    JSCompartment* origin() const { return origin_; }

  private:
    AutoCompartment(const AutoCompartment&) = delete;
    AutoCompartment & operator=(const AutoCompartment&) = delete;
};

/*
 * Use this to change the behavior of an AutoCompartment slightly on error. If
 * the exception happens to be an Error object, copy it to the origin compartment
 * instead of wrapping it.
 */
class ErrorCopier
{
    mozilla::Maybe<AutoCompartment>& ac;

  public:
    explicit ErrorCopier(mozilla::Maybe<AutoCompartment>& ac)
      : ac(ac) {}
    ~ErrorCopier();
};

/*
 * AutoWrapperVector and AutoWrapperRooter can be used to store wrappers that
 * are obtained from the cross-compartment map. However, these classes should
 * not be used if the wrapper will escape. For example, it should not be stored
 * in the heap.
 *
 * The AutoWrapper rooters are different from other autorooters because their
 * wrappers are marked on every GC slice rather than just the first one. If
 * there's some wrapper that we want to use temporarily without causing it to be
 * marked, we can use these AutoWrapper classes. If we get unlucky and a GC
 * slice runs during the code using the wrapper, the GC will mark the wrapper so
 * that it doesn't get swept out from under us. Otherwise, the wrapper needn't
 * be marked. This is useful in functions like JS_TransplantObject that
 * manipulate wrappers in compartments that may no longer be alive.
 */

/*
 * This class stores the data for AutoWrapperVector and AutoWrapperRooter. It
 * should not be used in any other situations.
 */
struct WrapperValue
{
    /*
     * We use unsafeGet() in the constructors to avoid invoking a read barrier
     * on the wrapper, which may be dead (see the comment about bug 803376 in
     * jsgc.cpp regarding this). If there is an incremental GC while the wrapper
     * is in use, the AutoWrapper rooter will ensure the wrapper gets marked.
     */
    explicit WrapperValue(const WrapperMap::Ptr& ptr)
      : value(*ptr->value().unsafeGet())
    {}

    explicit WrapperValue(const WrapperMap::Enum& e)
      : value(*e.front().value().unsafeGet())
    {}

    Value& get() { return value; }
    Value get() const { return value; }
    operator const Value&() const { return value; }
    JSObject& toObject() const { return value.toObject(); }

  private:
    Value value;
};

class MOZ_RAII AutoWrapperVector : public JS::AutoVectorRooterBase<WrapperValue>
{
  public:
    explicit AutoWrapperVector(JSContext* cx
                               MOZ_GUARD_OBJECT_NOTIFIER_PARAM)
        : AutoVectorRooterBase<WrapperValue>(cx, WRAPVECTOR)
    {
        MOZ_GUARD_OBJECT_NOTIFIER_INIT;
    }

    MOZ_DECL_USE_GUARD_OBJECT_NOTIFIER
};

class MOZ_RAII AutoWrapperRooter : private JS::AutoGCRooter {
  public:
    AutoWrapperRooter(JSContext* cx, const WrapperValue& v
                      MOZ_GUARD_OBJECT_NOTIFIER_PARAM)
      : JS::AutoGCRooter(cx, WRAPPER), value(v)
    {
        MOZ_GUARD_OBJECT_NOTIFIER_INIT;
    }

    operator JSObject*() const {
        return value.get().toObjectOrNull();
    }

    friend void JS::AutoGCRooter::trace(JSTracer* trc);

  private:
    WrapperValue value;
    MOZ_DECL_USE_GUARD_OBJECT_NOTIFIER
};

class MOZ_RAII AutoSuppressAllocationMetadataBuilder {
    JS::Zone* zone;
    bool saved;

  public:
    explicit AutoSuppressAllocationMetadataBuilder(ExclusiveContext* cx)
      : AutoSuppressAllocationMetadataBuilder(cx->compartment()->zone())
    { }

    explicit AutoSuppressAllocationMetadataBuilder(JS::Zone* zone)
      : zone(zone),
        saved(zone->suppressAllocationMetadataBuilder)
    {
        zone->suppressAllocationMetadataBuilder = true;
    }

    ~AutoSuppressAllocationMetadataBuilder() {
        zone->suppressAllocationMetadataBuilder = saved;
    }
};

} /* namespace js */

namespace JS {
template <>
struct GCPolicy<js::CrossCompartmentKey> : public StructGCPolicy<js::CrossCompartmentKey> {
    static bool isTenured(const js::CrossCompartmentKey& key) { return key.isTenured(); }
};
} // namespace JS

#endif /* jscompartment_h */