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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 vm_Realm_h
#define vm_Realm_h
#include "mozilla/Array.h"
#include "mozilla/Maybe.h"
#include "mozilla/MemoryReporting.h"
#include "mozilla/TimeStamp.h"
#include "mozilla/Variant.h"
#include "mozilla/XorShift128PlusRNG.h"
#include <stddef.h>
#include "builtin/Array.h"
#include "gc/Barrier.h"
#include "js/GCVariant.h"
#include "js/RealmOptions.h"
#include "js/TelemetryTimers.h"
#include "js/UniquePtr.h"
#include "vm/ArrayBufferObject.h"
#include "vm/JSContext.h"
#include "vm/PromiseLookup.h" // js::PromiseLookup
#include "vm/RegExpShared.h"
#include "vm/SavedStacks.h"
#include "wasm/WasmRealm.h"
namespace js {
namespace coverage {
class LCovRealm;
} // namespace coverage
namespace jit {
class JitRealm;
} // namespace jit
class AutoRestoreRealmDebugMode;
class Debugger;
class GlobalObject;
class GlobalObjectData;
class GlobalLexicalEnvironmentObject;
class NonSyntacticLexicalEnvironmentObject;
struct IdValuePair;
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 dbl;
int base;
JSLinearString* str; // if str==nullptr, dbl and base are not valid
public:
DtoaCache() : str(nullptr) {}
void purge() { str = nullptr; }
JSLinearString* lookup(int b, double d) {
return str && b == base && d == dbl ? str : nullptr;
}
void cache(int b, double d, JSLinearString* s) {
base = b;
dbl = d;
str = s;
}
#ifdef JSGC_HASH_TABLE_CHECKS
void checkCacheAfterMovingGC();
#endif
};
// Cache to speed up the group/shape lookup in ProxyObject::create. A proxy's
// shape is only determined by the Class + proto, so a small cache for this is
// very effective in practice.
class NewProxyCache {
struct Entry {
Shape* shape;
};
static const size_t NumEntries = 4;
mozilla::UniquePtr<Entry[], JS::FreePolicy> entries_;
public:
MOZ_ALWAYS_INLINE bool lookup(const JSClass* clasp, TaggedProto proto,
Shape** shape) const {
if (!entries_) {
return false;
}
for (size_t i = 0; i < NumEntries; i++) {
const Entry& entry = entries_[i];
if (entry.shape && entry.shape->getObjectClass() == clasp &&
entry.shape->proto() == proto) {
*shape = entry.shape;
return true;
}
}
return false;
}
void add(Shape* shape) {
MOZ_ASSERT(shape);
if (!entries_) {
entries_.reset(js_pod_calloc<Entry>(NumEntries));
if (!entries_) {
return;
}
} else {
for (size_t i = NumEntries - 1; i > 0; i--) {
entries_[i] = entries_[i - 1];
}
}
entries_[0].shape = shape;
}
void purge() { entries_.reset(); }
};
// Cache for NewPlainObjectWithProperties. When the list of properties matches
// a recently created object's shape, we can use this shape directly.
class NewPlainObjectWithPropsCache {
static const size_t NumEntries = 4;
mozilla::Array<SharedShape*, NumEntries> entries_;
public:
NewPlainObjectWithPropsCache() { purge(); }
SharedShape* lookup(IdValuePair* properties, size_t nproperties) const;
void add(SharedShape* shape);
void purge() {
for (size_t i = 0; i < NumEntries; i++) {
entries_[i] = nullptr;
}
}
};
// [SMDOC] Object MetadataBuilder API
//
// 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.
//
// The js::AutoSetNewObjectMetadata RAII class provides an ergonomic way for
// constructor functions to do this.
//
// In the presence of internal errors, we do not set the new object's metadata
// (if it was even allocated).
class PropertyIteratorObject;
struct IteratorHashPolicy {
struct Lookup {
Shape** shapes;
size_t numShapes;
HashNumber shapesHash;
Lookup(Shape** shapes, size_t numShapes, HashNumber shapesHash)
: shapes(shapes), numShapes(numShapes), shapesHash(shapesHash) {
MOZ_ASSERT(numShapes > 0);
}
};
static HashNumber hash(const Lookup& lookup) { return lookup.shapesHash; }
static bool match(PropertyIteratorObject* obj, const Lookup& lookup);
};
class DebugEnvironments;
class ObjectWeakMap;
// ObjectRealm stores various tables and other state associated with particular
// objects in a realm. To make sure the correct ObjectRealm is used for an
// object, use of the ObjectRealm::get(obj) static method is required.
class ObjectRealm {
// All non-syntactic lexical environments in the realm. 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::UniquePtr<js::ObjectWeakMap> nonSyntacticLexicalEnvironments_;
ObjectRealm(const ObjectRealm&) = delete;
void operator=(const ObjectRealm&) = delete;
public:
// Map from array buffers to views sharing that storage.
JS::WeakCache<js::InnerViewTable> innerViews;
// Keep track of the metadata objects which can be associated with each JS
// object. Both keys and values are in this realm.
js::UniquePtr<js::ObjectWeakMap> objectMetadataTable;
using IteratorCache =
js::HashSet<js::PropertyIteratorObject*, js::IteratorHashPolicy,
js::ZoneAllocPolicy>;
IteratorCache iteratorCache;
static inline ObjectRealm& get(const JSObject* obj);
explicit ObjectRealm(JS::Zone* zone);
void finishRoots();
void trace(JSTracer* trc);
void sweepAfterMinorGC(JSTracer* trc);
void addSizeOfExcludingThis(mozilla::MallocSizeOf mallocSizeOf,
size_t* innerViewsArg,
size_t* objectMetadataTablesArg,
size_t* nonSyntacticLexicalEnvironmentsArg);
js::NonSyntacticLexicalEnvironmentObject*
getOrCreateNonSyntacticLexicalEnvironment(JSContext* cx,
js::HandleObject enclosing);
js::NonSyntacticLexicalEnvironmentObject*
getOrCreateNonSyntacticLexicalEnvironment(JSContext* cx,
js::HandleObject enclosing,
js::HandleObject key,
js::HandleObject thisv);
js::NonSyntacticLexicalEnvironmentObject* getNonSyntacticLexicalEnvironment(
JSObject* key) const;
};
} // namespace js
class JS::Realm : public JS::shadow::Realm {
JS::Zone* zone_;
JSRuntime* runtime_;
const JS::RealmCreationOptions creationOptions_;
JS::RealmBehaviors behaviors_;
friend struct ::JSContext;
js::WeakHeapPtr<js::GlobalObject*> global_;
// Note: this is private to enforce use of ObjectRealm::get(obj).
js::ObjectRealm objects_;
friend js::ObjectRealm& js::ObjectRealm::get(const JSObject*);
// See the "Object MetadataBuilder API" comment.
JSObject* objectPendingMetadata_ = nullptr;
#ifdef DEBUG
uint32_t numActiveAutoSetNewObjectMetadata_ = 0;
#endif
// Random number generator for Math.random().
mozilla::Maybe<mozilla::non_crypto::XorShift128PlusRNG>
randomNumberGenerator_;
// Random number generator for randomHashCodeScrambler().
mozilla::non_crypto::XorShift128PlusRNG randomKeyGenerator_;
JSPrincipals* principals_ = nullptr;
js::UniquePtr<js::jit::JitRealm> jitRealm_;
// Bookkeeping information for debug scope objects.
js::UniquePtr<js::DebugEnvironments> debugEnvs_;
js::SavedStacks savedStacks_;
// Used by memory reporters and invalid otherwise.
JS::RealmStats* realmStats_ = nullptr;
const js::AllocationMetadataBuilder* allocationMetadataBuilder_ = nullptr;
void* realmPrivate_ = nullptr;
// There are two ways to enter a realm:
//
// (1) AutoRealm (and JSAutoRealm, JS::EnterRealm)
// (2) When calling a cross-realm (but same-compartment) function in JIT
// code.
//
// This field only accounts for (1), to keep the JIT code as simple as
// possible.
//
// An important invariant is that the JIT can only switch to a different
// realm within the same compartment, so whenever that happens there must
// always be a same-compartment realm with enterRealmDepthIgnoringJit_ > 0.
// This lets us set Compartment::hasEnteredRealm without walking the
// stack.
unsigned enterRealmDepthIgnoringJit_ = 0;
public:
// Various timers for collecting time spent delazifying, jit compiling,
// executing, etc
JS::JSTimers timers;
struct DebuggerVectorEntry {
// The debugger relies on iterating through the DebuggerVector to know what
// debuggers to notify about certain actions, which it does using this
// pointer. We need an explicit Debugger* because the JSObject* from
// the DebuggerDebuggeeLink to the Debugger is only set some of the time.
// This `Debugger*` pointer itself could also live on the
// DebuggerDebuggeeLink itself, but that would then require all of the
// places that iterate over the realm's DebuggerVector to also traverse
// the CCW which seems like it would be needlessly complicated.
js::WeakHeapPtr<js::Debugger*> dbg;
// This links to the debugger's DebuggerDebuggeeLink object, via a CCW.
// Tracing this link from the realm allows the debugger to define
// whether pieces of the debugger should be held live by a given realm.
js::HeapPtr<JSObject*> debuggerLink;
DebuggerVectorEntry(js::Debugger* dbg_, JSObject* link);
};
using DebuggerVector =
js::Vector<DebuggerVectorEntry, 0, js::ZoneAllocPolicy>;
private:
DebuggerVector debuggers_;
enum {
IsDebuggee = 1 << 0,
DebuggerObservesAllExecution = 1 << 1,
DebuggerObservesAsmJS = 1 << 2,
DebuggerObservesCoverage = 1 << 3,
DebuggerObservesWasm = 1 << 4,
};
unsigned debugModeBits_ = 0;
friend class js::AutoRestoreRealmDebugMode;
bool isSystem_ = false;
bool allocatedDuringIncrementalGC_;
bool initializingGlobal_ = true;
js::UniquePtr<js::coverage::LCovRealm> lcovRealm_ = nullptr;
public:
// WebAssembly state for the realm.
js::wasm::Realm wasm;
js::RegExpRealm regExps;
js::DtoaCache dtoaCache;
js::NewProxyCache newProxyCache;
js::NewPlainObjectWithPropsCache newPlainObjectWithPropsCache;
js::ArraySpeciesLookup arraySpeciesLookup;
js::PromiseLookup promiseLookup;
// Last time at which an animation was played for this realm.
js::MainThreadData<mozilla::TimeStamp> lastAnimationTime;
/*
* For generational GC, record whether a write barrier has added this
* realm'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 = 0;
// Counter for shouldCaptureStackForThrow.
uint16_t numStacksCapturedForThrow_ = 0;
#ifdef DEBUG
bool firedOnNewGlobalObject = false;
#endif
// True if all incoming wrappers have been nuked. This happens when
// NukeCrossCompartmentWrappers is called with the NukeAllReferences option.
// This prevents us from creating new wrappers for the compartment.
bool nukedIncomingWrappers = false;
// Enable async stack capturing for this realm even if
// JS::ContextOptions::asyncStackCaptureDebuggeeOnly_ is true.
//
// No-op when JS::ContextOptions::asyncStack_ is false, or
// JS::ContextOptions::asyncStackCaptureDebuggeeOnly_ is false.
//
// This can be used as a lightweight alternative for making the global
// debuggee, if the async stack capturing is necessary but no other debugging
// features are used.
bool isAsyncStackCapturingEnabled = false;
// Allow to collect more than 50 stack traces for throw even if the global is
// not a debuggee.
//
// Similarly to isAsyncStackCapturingEnabled, this is a lightweight
// alternative for making the global a debuggee, when no actual debugging
// features are required.
bool isUnlimitedStacksCapturingEnabled = false;
private:
void updateDebuggerObservesFlag(unsigned flag);
Realm(const Realm&) = delete;
void operator=(const Realm&) = delete;
public:
Realm(JS::Compartment* comp, const JS::RealmOptions& options);
~Realm();
void init(JSContext* cx, JSPrincipals* principals);
void destroy(JS::GCContext* gcx);
void addSizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf,
size_t* realmObject, size_t* realmTables,
size_t* innerViewsArg,
size_t* objectMetadataTablesArg,
size_t* savedStacksSet,
size_t* nonSyntacticLexicalEnvironmentsArg,
size_t* jitRealm);
JS::Zone* zone() { return zone_; }
const JS::Zone* zone() const { return zone_; }
JSRuntime* runtimeFromMainThread() const {
MOZ_ASSERT(js::CurrentThreadCanAccessRuntime(runtime_));
return runtime_;
}
// Note: Unrestricted access to the runtime from an arbitrary thread
// can easily lead to races. Use this method very carefully.
JSRuntime* runtimeFromAnyThread() const { return runtime_; }
const JS::RealmCreationOptions& creationOptions() const {
return creationOptions_;
}
// NOTE: Do not provide accessor for mutable reference.
// Modifying RealmBehaviors after creating a realm can result in
// inconsistency.
const JS::RealmBehaviors& behaviors() const { return behaviors_; }
void setNonLive() { behaviors_.setNonLive(); }
/* Whether to preserve JIT code on non-shrinking GCs. */
bool preserveJitCode() { return creationOptions_.preserveJitCode(); }
/* The global object for this realm.
*
* Note: the global_ field is null briefly during GC, after the global
* object is collected; but when that happens the Realm is destroyed during
* the same GC.)
*
* In contrast, JSObject::global() is infallible because marking a JSObject
* always marks its global as well.
*/
inline js::GlobalObject* maybeGlobal() const;
/* An unbarriered getter for use while tracing. */
js::GlobalObject* unsafeUnbarrieredMaybeGlobal() const {
return global_.unbarrieredGet();
}
/* True if a global exists and it's not being collected. */
inline bool hasLiveGlobal() const;
/* True if a global exists and has been successfully initialized. */
inline bool hasInitializedGlobal() const;
inline void initGlobal(js::GlobalObject& global);
void clearInitializingGlobal() { initializingGlobal_ = false; }
/*
* This method traces data that is live iff we know that this realm's
* global is still live.
*/
void traceGlobalData(JSTracer* trc);
void traceWeakGlobalEdge(JSTracer* trc);
/*
* This method traces Realm-owned GC roots that are considered live
* regardless of whether the realm's global 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();
void sweepAfterMinorGC(JSTracer* trc);
void traceWeakDebugEnvironmentEdges(JSTracer* trc);
void traceWeakRegExps(JSTracer* trc);
void clearScriptCounts();
void clearScriptLCov();
void purge();
void fixupAfterMovingGC(JSTracer* trc);
void enter() { enterRealmDepthIgnoringJit_++; }
void leave() {
MOZ_ASSERT(enterRealmDepthIgnoringJit_ > 0);
enterRealmDepthIgnoringJit_--;
}
bool hasBeenEnteredIgnoringJit() const {
return enterRealmDepthIgnoringJit_ > 0;
}
bool shouldTraceGlobal() const {
// If we entered this realm in JIT code, there must be a script and
// function on the stack for this realm, so the global will definitely
// be traced and it's safe to return false here.
return hasBeenEnteredIgnoringJit();
}
bool hasAllocationMetadataBuilder() const {
return allocationMetadataBuilder_;
}
const js::AllocationMetadataBuilder* getAllocationMetadataBuilder() const {
return allocationMetadataBuilder_;
}
const void* addressOfMetadataBuilder() const {
return &allocationMetadataBuilder_;
}
bool isRecordingAllocations();
void setAllocationMetadataBuilder(
const js::AllocationMetadataBuilder* builder);
void forgetAllocationMetadataBuilder();
void setNewObjectMetadata(JSContext* cx, JS::HandleObject obj);
bool hasObjectPendingMetadata() const {
MOZ_ASSERT_IF(objectPendingMetadata_, hasAllocationMetadataBuilder());
return objectPendingMetadata_ != nullptr;
}
void setObjectPendingMetadata(JSObject* obj) {
MOZ_ASSERT(numActiveAutoSetNewObjectMetadata_ > 0,
"Must not use JSCLASS_DELAY_METADATA_BUILDER without "
"AutoSetNewObjectMetadata");
MOZ_ASSERT(!objectPendingMetadata_);
MOZ_ASSERT(obj);
if (MOZ_UNLIKELY(hasAllocationMetadataBuilder())) {
objectPendingMetadata_ = obj;
}
}
JSObject* getAndClearObjectPendingMetadata() {
MOZ_ASSERT(hasAllocationMetadataBuilder());
JSObject* obj = objectPendingMetadata_;
objectPendingMetadata_ = nullptr;
return obj;
}
#ifdef DEBUG
void incNumActiveAutoSetNewObjectMetadata() {
numActiveAutoSetNewObjectMetadata_++;
}
void decNumActiveAutoSetNewObjectMetadata() {
MOZ_ASSERT(numActiveAutoSetNewObjectMetadata_ > 0);
numActiveAutoSetNewObjectMetadata_--;
}
#endif
void* realmPrivate() const { return realmPrivate_; }
void setRealmPrivate(void* p) { realmPrivate_ = p; }
// This should only be called when it is non-null, i.e. during memory
// reporting.
JS::RealmStats& realmStats() {
// We use MOZ_RELEASE_ASSERT here because in bug 1132502 there was some
// (inconclusive) evidence that realmStats_ can be nullptr unexpectedly.
MOZ_RELEASE_ASSERT(realmStats_);
return *realmStats_;
}
void nullRealmStats() {
MOZ_ASSERT(realmStats_);
realmStats_ = nullptr;
}
void setRealmStats(JS::RealmStats* newStats) {
MOZ_ASSERT(!realmStats_ && newStats);
realmStats_ = newStats;
}
inline bool marked() const;
void clearAllocatedDuringGC() { allocatedDuringIncrementalGC_ = false; }
/*
* The principals associated with this realm. Note that the same several
* realms may share the same principals and that a realm may change
* principals during its lifetime (e.g. in case of lazy parsing).
*/
JSPrincipals* principals() { return principals_; }
void setPrincipals(JSPrincipals* principals) { principals_ = principals; }
bool isSystem() const { return isSystem_; }
//
// The Debugger observes execution on a frame-by-frame basis. The
// invariants of Realm's debug mode bits, JSScript::isDebuggee,
// InterpreterFrame::isDebuggee, and BaselineFrame::isDebuggee are
// enumerated below.
//
// 1. When a realm'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 realm's debuggerObservesAllExecution() == true, all of
// the realm's scripts are considered debuggee scripts.
//
// 3. A script is considered a debuggee script either when, per above, its
// realm 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 realm's global is a debuggee of some Debugger
// object.
bool isDebuggee() const { return !!(debugModeBits_ & IsDebuggee); }
void setIsDebuggee();
void unsetIsDebuggee();
DebuggerVector& getDebuggers(const JS::AutoRequireNoGC& nogc) {
return debuggers_;
};
bool hasDebuggers() const { return !debuggers_.empty(); }
// 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 realm's global is a debuggee of some Debugger object
// whose allowUnobservedAsmJS flag is false.
bool debuggerObservesAsmJS() const {
static const unsigned Mask = IsDebuggee | DebuggerObservesAsmJS;
return (debugModeBits_ & Mask) == Mask;
}
void updateDebuggerObservesAsmJS() {
updateDebuggerObservesFlag(DebuggerObservesAsmJS);
}
// True if this realm's global is a debuggee of some Debugger object
// whose allowUnobservedWasm 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 debuggerObservesWasm() const {
static const unsigned Mask = IsDebuggee | DebuggerObservesWasm;
return (debugModeBits_ & Mask) == Mask;
}
void updateDebuggerObservesWasm() {
updateDebuggerObservesFlag(DebuggerObservesWasm);
}
// True if this realm'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();
// Returns true if the Debugger API is collecting code coverage data for this
// realm or if the process-wide LCov option is enabled.
bool collectCoverageForDebug() const;
// Get or allocate the associated LCovRealm.
js::coverage::LCovRealm* lcovRealm();
bool shouldCaptureStackForThrow();
// Initializes randomNumberGenerator if needed.
mozilla::non_crypto::XorShift128PlusRNG& getOrCreateRandomNumberGenerator();
const mozilla::non_crypto::XorShift128PlusRNG*
addressOfRandomNumberGenerator() const {
return randomNumberGenerator_.ptr();
}
mozilla::HashCodeScrambler randomHashCodeScrambler();
bool ensureJitRealmExists(JSContext* cx);
void traceWeakEdgesInJitRealm(JSTracer* trc);
js::jit::JitRealm* jitRealm() { return jitRealm_.get(); }
js::DebugEnvironments* debugEnvs() { return debugEnvs_.get(); }
js::UniquePtr<js::DebugEnvironments>& debugEnvsRef() { return debugEnvs_; }
js::SavedStacks& savedStacks() { return savedStacks_; }
// Recompute the probability with which this realm should record
// profiling data (stack traces, allocations log, etc.) about each
// allocation. We first consult the JS runtime to see if it is recording
// allocations, and if not then check the probabilities requested by the
// Debugger instances observing us, if any.
void chooseAllocationSamplingProbability() {
savedStacks_.chooseSamplingProbability(this);
}
void traceWeakSavedStacks(JSTracer* trc);
static constexpr size_t offsetOfCompartment() {
return offsetof(JS::Realm, compartment_);
}
static constexpr size_t offsetOfRegExps() {
return offsetof(JS::Realm, regExps);
}
static constexpr size_t offsetOfJitRealm() {
return offsetof(JS::Realm, jitRealm_);
}
static constexpr size_t offsetOfDebugModeBits() {
return offsetof(JS::Realm, debugModeBits_);
}
static constexpr uint32_t debugModeIsDebuggeeBit() { return IsDebuggee; }
// Note: similar to cx->global(), JIT code can omit the read barrier for the
// context's active global.
static constexpr size_t offsetOfActiveGlobal() {
static_assert(sizeof(global_) == sizeof(uintptr_t),
"JIT code assumes field is pointer-sized");
return offsetof(JS::Realm, global_);
}
private:
void purgeForOfPicChain();
};
inline js::Handle<js::GlobalObject*> JSContext::global() const {
/*
* It's safe to use |unbarrieredGet()| here because any realm that is on-stack
* will be marked automatically, so there's no need for a read barrier on
* it. Once the realm is popped, the handle is no longer safe to use.
*/
MOZ_ASSERT(realm_, "Caller needs to enter a realm first");
return js::Handle<js::GlobalObject*>::fromMarkedLocation(
realm_->global_.unbarrieredAddress());
}
namespace js {
class MOZ_RAII AssertRealmUnchanged {
public:
explicit AssertRealmUnchanged(JSContext* cx)
: cx(cx), oldRealm(cx->realm()) {}
~AssertRealmUnchanged() { MOZ_ASSERT(cx->realm() == oldRealm); }
protected:
JSContext* const cx;
JS::Realm* const oldRealm;
};
// AutoRealm can be used to enter the realm of a JSObject, JSScript or
// ObjectGroup. It must not be used with cross-compartment wrappers, because
// CCWs are not associated with a single realm.
class AutoRealm {
JSContext* const cx_;
JS::Realm* const origin_;
public:
template <typename T>
inline AutoRealm(JSContext* cx, const T& target);
inline ~AutoRealm();
JSContext* context() const { return cx_; }
JS::Realm* origin() const { return origin_; }
protected:
inline AutoRealm(JSContext* cx, JS::Realm* target);
private:
AutoRealm(const AutoRealm&) = delete;
AutoRealm& operator=(const AutoRealm&) = delete;
};
class MOZ_RAII AutoAllocInAtomsZone {
JSContext* const cx_;
JS::Realm* const origin_;
AutoAllocInAtomsZone(const AutoAllocInAtomsZone&) = delete;
AutoAllocInAtomsZone& operator=(const AutoAllocInAtomsZone&) = delete;
public:
inline explicit AutoAllocInAtomsZone(JSContext* cx);
inline ~AutoAllocInAtomsZone();
};
// During GC we sometimes need to enter a realm when we may have been allocating
// in the the atoms zone. This leaves the atoms zone temporarily. This happens
// in embedding callbacks and when we need to mark object groups as pretenured.
class MOZ_RAII AutoMaybeLeaveAtomsZone {
JSContext* const cx_;
bool wasInAtomsZone_;
AutoMaybeLeaveAtomsZone(const AutoMaybeLeaveAtomsZone&) = delete;
AutoMaybeLeaveAtomsZone& operator=(const AutoMaybeLeaveAtomsZone&) = delete;
public:
inline explicit AutoMaybeLeaveAtomsZone(JSContext* cx);
inline ~AutoMaybeLeaveAtomsZone();
};
// Enter a realm directly. Only use this where there's no target GC thing
// to pass to AutoRealm or where you need to avoid the assertions in
// JS::Compartment::enterCompartmentOf().
class AutoRealmUnchecked : protected AutoRealm {
public:
inline AutoRealmUnchecked(JSContext* cx, JS::Realm* target);
};
// Similar to AutoRealm, but this uses GetFunctionRealm in the spec, and
// handles both bound functions and proxies.
//
// If GetFunctionRealm fails for the following reasons, this does nothing:
// * `fun` is revoked proxy
// * unwrapping failed because of a security wrapper
class AutoFunctionOrCurrentRealm {
mozilla::Maybe<AutoRealmUnchecked> ar_;
public:
inline AutoFunctionOrCurrentRealm(JSContext* cx, js::HandleObject fun);
~AutoFunctionOrCurrentRealm() = default;
private:
AutoFunctionOrCurrentRealm(const AutoFunctionOrCurrentRealm&) = delete;
AutoFunctionOrCurrentRealm& operator=(const AutoFunctionOrCurrentRealm&) =
delete;
};
/*
* Use this to change the behavior of an AutoRealm 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<AutoRealm>& ar;
public:
explicit ErrorCopier(mozilla::Maybe<AutoRealm>& ar) : ar(ar) {}
~ErrorCopier();
};
// See the "Object MetadataBuilder API" comment.
class MOZ_RAII AutoSetNewObjectMetadata {
JSContext* cx_;
AutoSetNewObjectMetadata(const AutoSetNewObjectMetadata& aOther) = delete;
void operator=(const AutoSetNewObjectMetadata& aOther) = delete;
void setPendingMetadata();
public:
explicit inline AutoSetNewObjectMetadata(JSContext* cx) : cx_(cx) {
#ifdef DEBUG
MOZ_ASSERT(cx->isMainThreadContext());
MOZ_ASSERT(!cx->realm()->hasObjectPendingMetadata());
cx_->realm()->incNumActiveAutoSetNewObjectMetadata();
#endif
}
inline ~AutoSetNewObjectMetadata() {
#ifdef DEBUG
cx_->realm()->decNumActiveAutoSetNewObjectMetadata();
#endif
if (MOZ_UNLIKELY(cx_->realm()->hasAllocationMetadataBuilder())) {
setPendingMetadata();
}
}
};
} /* namespace js */
#endif /* vm_Realm_h */
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