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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/. */
// We're dividing JS objects into 3 categories:
//
// 1. "real" roots, held by the JS engine itself or rooted through the root
// and lock JS APIs. Roots from this category are considered black in the
// cycle collector, any cycle they participate in is uncollectable.
//
// 2. certain roots held by C++ objects that are guaranteed to be alive.
// Roots from this category are considered black in the cycle collector,
// and any cycle they participate in is uncollectable. These roots are
// traced from TraceNativeBlackRoots.
//
// 3. all other roots held by C++ objects that participate in cycle collection,
// held by us (see TraceNativeGrayRoots). Roots from this category are
// considered grey in the cycle collector; whether or not they are collected
// depends on the objects that hold them.
//
// Note that if a root is in multiple categories the fact that it is in
// category 1 or 2 that takes precedence, so it will be considered black.
//
// During garbage collection we switch to an additional mark color (gray) when
// tracing inside TraceNativeGrayRoots. This allows us to walk those roots later
// on and add all objects reachable only from them to the cycle collector.
//
// Phases:
//
// 1. marking of the roots in category 1 by having the JS GC do its marking
// 2. marking of the roots in category 2 by having the JS GC call us back
// (via JS_SetExtraGCRootsTracer) and running TraceNativeBlackRoots
// 3. marking of the roots in category 3 by
// TraceNativeGrayRootsInCollectingZones using an additional color (gray).
// 4. end of GC, GC can sweep its heap
//
// At some later point, when the cycle collector runs:
//
// 5. walk gray objects and add them to the cycle collector, cycle collect
//
// JS objects that are part of cycles the cycle collector breaks will be
// collected by the next JS GC.
//
// If WantAllTraces() is false the cycle collector will not traverse roots
// from category 1 or any JS objects held by them. Any JS objects they hold
// will already be marked by the JS GC and will thus be colored black
// themselves. Any C++ objects they hold will have a missing (untraversed)
// edge from the JS object to the C++ object and so it will be marked black
// too. This decreases the number of objects that the cycle collector has to
// deal with.
// To improve debugging, if WantAllTraces() is true all JS objects are
// traversed.
#include "mozilla/CycleCollectedJSRuntime.h"
#include <algorithm>
#include <utility>
#include "js/Debug.h"
#include "js/RealmOptions.h"
#include "js/friend/DumpFunctions.h" // js::DumpHeap
#include "js/GCAPI.h"
#include "js/HeapAPI.h"
#include "js/Object.h" // JS::GetClass, JS::GetCompartment, JS::GetPrivate
#include "js/PropertyAndElement.h" // JS_DefineProperty
#include "js/Warnings.h" // JS::SetWarningReporter
#include "js/ShadowRealmCallbacks.h"
#include "js/SliceBudget.h"
#include "jsfriendapi.h"
#include "mozilla/ArrayUtils.h"
#include "mozilla/AutoRestore.h"
#include "mozilla/CycleCollectedJSContext.h"
#include "mozilla/DebuggerOnGCRunnable.h"
#include "mozilla/MemoryReporting.h"
#include "mozilla/PerfStats.h"
#include "mozilla/ProfilerLabels.h"
#include "mozilla/ProfilerMarkers.h"
#include "mozilla/Sprintf.h"
#include "mozilla/StaticPrefs_javascript.h"
#include "mozilla/Telemetry.h"
#include "mozilla/TimelineConsumers.h"
#include "mozilla/TimelineMarker.h"
#include "mozilla/Unused.h"
#include "mozilla/dom/AutoEntryScript.h"
#include "mozilla/dom/DOMJSClass.h"
#include "mozilla/dom/JSExecutionManager.h"
#include "mozilla/dom/ProfileTimelineMarkerBinding.h"
#include "mozilla/dom/Promise.h"
#include "mozilla/dom/PromiseBinding.h"
#include "mozilla/dom/PromiseDebugging.h"
#include "mozilla/dom/ScriptSettings.h"
#include "mozilla/dom/ShadowRealmGlobalScope.h"
#include "mozilla/dom/RegisterShadowRealmBindings.h"
#include "nsContentUtils.h"
#include "nsCycleCollectionNoteRootCallback.h"
#include "nsCycleCollectionParticipant.h"
#include "nsCycleCollector.h"
#include "nsDOMJSUtils.h"
#include "nsExceptionHandler.h"
#include "nsJSUtils.h"
#include "nsStringBuffer.h"
#include "nsWrapperCache.h"
#include "prenv.h"
#if defined(XP_MACOSX)
# include "nsMacUtilsImpl.h"
#endif
#include "nsThread.h"
#include "nsThreadUtils.h"
#include "xpcpublic.h"
#ifdef NIGHTLY_BUILD
// For performance reasons, we make the JS Dev Error Interceptor a Nightly-only
// feature.
# define MOZ_JS_DEV_ERROR_INTERCEPTOR = 1
#endif // NIGHTLY_BUILD
using namespace mozilla;
using namespace mozilla::dom;
namespace mozilla {
struct DeferredFinalizeFunctionHolder {
DeferredFinalizeFunction run;
void* data;
};
class IncrementalFinalizeRunnable : public DiscardableRunnable {
typedef AutoTArray<DeferredFinalizeFunctionHolder, 16> DeferredFinalizeArray;
typedef CycleCollectedJSRuntime::DeferredFinalizerTable
DeferredFinalizerTable;
CycleCollectedJSRuntime* mRuntime;
DeferredFinalizeArray mDeferredFinalizeFunctions;
uint32_t mFinalizeFunctionToRun;
bool mReleasing;
static const PRTime SliceMillis = 5; /* ms */
public:
IncrementalFinalizeRunnable(CycleCollectedJSRuntime* aRt,
DeferredFinalizerTable& aFinalizerTable);
virtual ~IncrementalFinalizeRunnable();
void ReleaseNow(bool aLimited);
NS_DECL_NSIRUNNABLE
};
} // namespace mozilla
struct NoteWeakMapChildrenTracer : public JS::CallbackTracer {
NoteWeakMapChildrenTracer(JSRuntime* aRt,
nsCycleCollectionNoteRootCallback& aCb)
: JS::CallbackTracer(aRt, JS::TracerKind::Callback),
mCb(aCb),
mTracedAny(false),
mMap(nullptr),
mKey(nullptr),
mKeyDelegate(nullptr) {}
void onChild(JS::GCCellPtr aThing, const char* name) override;
nsCycleCollectionNoteRootCallback& mCb;
bool mTracedAny;
JSObject* mMap;
JS::GCCellPtr mKey;
JSObject* mKeyDelegate;
};
void NoteWeakMapChildrenTracer::onChild(JS::GCCellPtr aThing,
const char* name) {
if (aThing.is<JSString>()) {
return;
}
if (!JS::GCThingIsMarkedGrayInCC(aThing) && !mCb.WantAllTraces()) {
return;
}
if (JS::IsCCTraceKind(aThing.kind())) {
mCb.NoteWeakMapping(mMap, mKey, mKeyDelegate, aThing);
mTracedAny = true;
} else {
JS::TraceChildren(this, aThing);
}
}
struct NoteWeakMapsTracer : public js::WeakMapTracer {
NoteWeakMapsTracer(JSRuntime* aRt, nsCycleCollectionNoteRootCallback& aCccb)
: js::WeakMapTracer(aRt), mCb(aCccb), mChildTracer(aRt, aCccb) {}
void trace(JSObject* aMap, JS::GCCellPtr aKey, JS::GCCellPtr aValue) override;
nsCycleCollectionNoteRootCallback& mCb;
NoteWeakMapChildrenTracer mChildTracer;
};
void NoteWeakMapsTracer::trace(JSObject* aMap, JS::GCCellPtr aKey,
JS::GCCellPtr aValue) {
// If nothing that could be held alive by this entry is marked gray, return.
if ((!aKey || !JS::GCThingIsMarkedGrayInCC(aKey)) &&
MOZ_LIKELY(!mCb.WantAllTraces())) {
if (!aValue || !JS::GCThingIsMarkedGrayInCC(aValue) ||
aValue.is<JSString>()) {
return;
}
}
// The cycle collector can only properly reason about weak maps if it can
// reason about the liveness of their keys, which in turn requires that
// the key can be represented in the cycle collector graph. All existing
// uses of weak maps use either objects or scripts as keys, which are okay.
MOZ_ASSERT(JS::IsCCTraceKind(aKey.kind()));
// As an emergency fallback for non-debug builds, if the key is not
// representable in the cycle collector graph, we treat it as marked. This
// can cause leaks, but is preferable to ignoring the binding, which could
// cause the cycle collector to free live objects.
if (!JS::IsCCTraceKind(aKey.kind())) {
aKey = nullptr;
}
JSObject* kdelegate = nullptr;
if (aKey.is<JSObject>()) {
kdelegate = js::UncheckedUnwrapWithoutExpose(&aKey.as<JSObject>());
}
if (JS::IsCCTraceKind(aValue.kind())) {
mCb.NoteWeakMapping(aMap, aKey, kdelegate, aValue);
} else {
mChildTracer.mTracedAny = false;
mChildTracer.mMap = aMap;
mChildTracer.mKey = aKey;
mChildTracer.mKeyDelegate = kdelegate;
if (!aValue.is<JSString>()) {
JS::TraceChildren(&mChildTracer, aValue);
}
// The delegate could hold alive the key, so report something to the CC
// if we haven't already.
if (!mChildTracer.mTracedAny && aKey && JS::GCThingIsMarkedGrayInCC(aKey) &&
kdelegate) {
mCb.NoteWeakMapping(aMap, aKey, kdelegate, nullptr);
}
}
}
// Report whether the key or value of a weak mapping entry are gray but need to
// be marked black.
static void ShouldWeakMappingEntryBeBlack(JSObject* aMap, JS::GCCellPtr aKey,
JS::GCCellPtr aValue,
bool* aKeyShouldBeBlack,
bool* aValueShouldBeBlack) {
*aKeyShouldBeBlack = false;
*aValueShouldBeBlack = false;
// If nothing that could be held alive by this entry is marked gray, return.
bool keyMightNeedMarking = aKey && JS::GCThingIsMarkedGrayInCC(aKey);
bool valueMightNeedMarking = aValue && JS::GCThingIsMarkedGrayInCC(aValue) &&
aValue.kind() != JS::TraceKind::String;
if (!keyMightNeedMarking && !valueMightNeedMarking) {
return;
}
if (!JS::IsCCTraceKind(aKey.kind())) {
aKey = nullptr;
}
if (keyMightNeedMarking && aKey.is<JSObject>()) {
JSObject* kdelegate =
js::UncheckedUnwrapWithoutExpose(&aKey.as<JSObject>());
if (kdelegate && !JS::ObjectIsMarkedGray(kdelegate) &&
(!aMap || !JS::ObjectIsMarkedGray(aMap))) {
*aKeyShouldBeBlack = true;
}
}
if (aValue && JS::GCThingIsMarkedGrayInCC(aValue) &&
(!aKey || !JS::GCThingIsMarkedGrayInCC(aKey)) &&
(!aMap || !JS::ObjectIsMarkedGray(aMap)) &&
aValue.kind() != JS::TraceKind::Shape) {
*aValueShouldBeBlack = true;
}
}
struct FixWeakMappingGrayBitsTracer : public js::WeakMapTracer {
explicit FixWeakMappingGrayBitsTracer(JSRuntime* aRt)
: js::WeakMapTracer(aRt) {}
void FixAll() {
do {
mAnyMarked = false;
js::TraceWeakMaps(this);
} while (mAnyMarked);
}
void trace(JSObject* aMap, JS::GCCellPtr aKey,
JS::GCCellPtr aValue) override {
bool keyShouldBeBlack;
bool valueShouldBeBlack;
ShouldWeakMappingEntryBeBlack(aMap, aKey, aValue, &keyShouldBeBlack,
&valueShouldBeBlack);
if (keyShouldBeBlack && JS::UnmarkGrayGCThingRecursively(aKey)) {
mAnyMarked = true;
}
if (valueShouldBeBlack && JS::UnmarkGrayGCThingRecursively(aValue)) {
mAnyMarked = true;
}
}
MOZ_INIT_OUTSIDE_CTOR bool mAnyMarked;
};
#ifdef DEBUG
// Check whether weak maps are marked correctly according to the logic above.
struct CheckWeakMappingGrayBitsTracer : public js::WeakMapTracer {
explicit CheckWeakMappingGrayBitsTracer(JSRuntime* aRt)
: js::WeakMapTracer(aRt), mFailed(false) {}
static bool Check(JSRuntime* aRt) {
CheckWeakMappingGrayBitsTracer tracer(aRt);
js::TraceWeakMaps(&tracer);
return !tracer.mFailed;
}
void trace(JSObject* aMap, JS::GCCellPtr aKey,
JS::GCCellPtr aValue) override {
bool keyShouldBeBlack;
bool valueShouldBeBlack;
ShouldWeakMappingEntryBeBlack(aMap, aKey, aValue, &keyShouldBeBlack,
&valueShouldBeBlack);
if (keyShouldBeBlack) {
fprintf(stderr, "Weak mapping key %p of map %p should be black\n",
aKey.asCell(), aMap);
mFailed = true;
}
if (valueShouldBeBlack) {
fprintf(stderr, "Weak mapping value %p of map %p should be black\n",
aValue.asCell(), aMap);
mFailed = true;
}
}
bool mFailed;
};
#endif // DEBUG
static void CheckParticipatesInCycleCollection(JS::GCCellPtr aThing,
const char* aName,
void* aClosure) {
bool* cycleCollectionEnabled = static_cast<bool*>(aClosure);
if (*cycleCollectionEnabled) {
return;
}
if (JS::IsCCTraceKind(aThing.kind()) && JS::GCThingIsMarkedGrayInCC(aThing)) {
*cycleCollectionEnabled = true;
}
}
NS_IMETHODIMP
JSGCThingParticipant::TraverseNative(void* aPtr,
nsCycleCollectionTraversalCallback& aCb) {
auto runtime = reinterpret_cast<CycleCollectedJSRuntime*>(
reinterpret_cast<char*>(this) -
offsetof(CycleCollectedJSRuntime, mGCThingCycleCollectorGlobal));
JS::GCCellPtr cellPtr(aPtr, JS::GCThingTraceKind(aPtr));
runtime->TraverseGCThing(CycleCollectedJSRuntime::TRAVERSE_FULL, cellPtr,
aCb);
return NS_OK;
}
// NB: This is only used to initialize the participant in
// CycleCollectedJSRuntime. It should never be used directly.
static JSGCThingParticipant sGCThingCycleCollectorGlobal;
NS_IMETHODIMP
JSZoneParticipant::TraverseNative(void* aPtr,
nsCycleCollectionTraversalCallback& aCb) {
auto runtime = reinterpret_cast<CycleCollectedJSRuntime*>(
reinterpret_cast<char*>(this) -
offsetof(CycleCollectedJSRuntime, mJSZoneCycleCollectorGlobal));
MOZ_ASSERT(!aCb.WantAllTraces());
JS::Zone* zone = static_cast<JS::Zone*>(aPtr);
runtime->TraverseZone(zone, aCb);
return NS_OK;
}
struct TraversalTracer : public JS::CallbackTracer {
TraversalTracer(JSRuntime* aRt, nsCycleCollectionTraversalCallback& aCb)
: JS::CallbackTracer(aRt, JS::TracerKind::Callback,
JS::TraceOptions(JS::WeakMapTraceAction::Skip,
JS::WeakEdgeTraceAction::Trace)),
mCb(aCb) {}
void onChild(JS::GCCellPtr aThing, const char* name) override;
nsCycleCollectionTraversalCallback& mCb;
};
void TraversalTracer::onChild(JS::GCCellPtr aThing, const char* name) {
// Checking strings and symbols for being gray is rather slow, and we don't
// need either of them for the cycle collector.
if (aThing.is<JSString>() || aThing.is<JS::Symbol>()) {
return;
}
// Don't traverse non-gray objects, unless we want all traces.
if (!JS::GCThingIsMarkedGrayInCC(aThing) && !mCb.WantAllTraces()) {
return;
}
/*
* This function needs to be careful to avoid stack overflow. Normally, when
* IsCCTraceKind is true, the recursion terminates immediately as we just add
* |thing| to the CC graph. So overflow is only possible when there are long
* or cyclic chains of non-IsCCTraceKind GC things. Places where this can
* occur use special APIs to handle such chains iteratively.
*/
if (JS::IsCCTraceKind(aThing.kind())) {
if (MOZ_UNLIKELY(mCb.WantDebugInfo())) {
char buffer[200];
context().getEdgeName(name, buffer, sizeof(buffer));
mCb.NoteNextEdgeName(buffer);
}
mCb.NoteJSChild(aThing);
return;
}
// Allow re-use of this tracer inside trace callback.
JS::AutoClearTracingContext actc(this);
if (aThing.is<js::Shape>()) {
// The maximum depth of traversal when tracing a Shape is unbounded, due to
// the parent pointers on the shape.
JS_TraceShapeCycleCollectorChildren(this, aThing);
} else {
JS::TraceChildren(this, aThing);
}
}
/*
* The cycle collection participant for a Zone is intended to produce the same
* results as if all of the gray GCthings in a zone were merged into a single
* node, except for self-edges. This avoids the overhead of representing all of
* the GCthings in the zone in the cycle collector graph, which should be much
* faster if many of the GCthings in the zone are gray.
*
* Zone merging should not always be used, because it is a conservative
* approximation of the true cycle collector graph that can incorrectly identify
* some garbage objects as being live. For instance, consider two cycles that
* pass through a zone, where one is garbage and the other is live. If we merge
* the entire zone, the cycle collector will think that both are alive.
*
* We don't have to worry about losing track of a garbage cycle, because any
* such garbage cycle incorrectly identified as live must contain at least one
* C++ to JS edge, and XPConnect will always add the C++ object to the CC graph.
* (This is in contrast to pure C++ garbage cycles, which must always be
* properly identified, because we clear the purple buffer during every CC,
* which may contain the last reference to a garbage cycle.)
*/
// NB: This is only used to initialize the participant in
// CycleCollectedJSRuntime. It should never be used directly.
static const JSZoneParticipant sJSZoneCycleCollectorGlobal;
static void JSObjectsTenuredCb(JSContext* aContext, void* aData) {
static_cast<CycleCollectedJSRuntime*>(aData)->JSObjectsTenured();
}
static void MozCrashWarningReporter(JSContext*, JSErrorReport*) {
MOZ_CRASH("Why is someone touching JSAPI without an AutoJSAPI?");
}
JSHolderMap::Entry::Entry() : Entry(nullptr, nullptr, nullptr) {}
JSHolderMap::Entry::Entry(void* aHolder, nsScriptObjectTracer* aTracer,
JS::Zone* aZone)
: mHolder(aHolder),
mTracer(aTracer)
#ifdef DEBUG
,
mZone(aZone)
#endif
{
}
void JSHolderMap::EntryVectorIter::Settle() {
if (Done()) {
return;
}
Entry* entry = &mIter.Get();
// If the entry has been cleared, remove it and shrink the vector.
if (!entry->mHolder && !mHolderMap.RemoveEntry(mVector, entry)) {
// We removed the last entry, so reset the iterator to an empty one.
mIter = EntryVector().Iter();
MOZ_ASSERT(Done());
}
}
JSHolderMap::Iter::Iter(JSHolderMap& aMap, WhichHolders aWhich)
: mHolderMap(aMap), mIter(aMap, aMap.mAnyZoneJSHolders) {
MOZ_RELEASE_ASSERT(!mHolderMap.mHasIterator);
mHolderMap.mHasIterator = true;
// Populate vector of zones to iterate after the any-zone holders.
for (auto i = aMap.mPerZoneJSHolders.iter(); !i.done(); i.next()) {
JS::Zone* zone = i.get().key();
if (aWhich == AllHolders || JS::NeedGrayRootsForZone(i.get().key())) {
MOZ_ALWAYS_TRUE(mZones.append(zone));
}
}
Settle();
}
void JSHolderMap::Iter::Settle() {
while (mIter.Done()) {
if (mZone && mIter.Vector().IsEmpty()) {
mHolderMap.mPerZoneJSHolders.remove(mZone);
}
mZone = nullptr;
if (mZones.empty()) {
break;
}
mZone = mZones.popCopy();
EntryVector& vector = *mHolderMap.mPerZoneJSHolders.lookup(mZone)->value();
new (&mIter) EntryVectorIter(mHolderMap, vector);
}
}
void JSHolderMap::Iter::UpdateForRemovals() {
mIter.Settle();
Settle();
}
JSHolderMap::JSHolderMap() : mJSHolderMap(256) {}
bool JSHolderMap::RemoveEntry(EntryVector& aJSHolders, Entry* aEntry) {
MOZ_ASSERT(aEntry);
MOZ_ASSERT(!aEntry->mHolder);
// Remove all dead entries from the end of the vector.
while (!aJSHolders.GetLast().mHolder && &aJSHolders.GetLast() != aEntry) {
aJSHolders.PopLast();
}
// Swap the element we want to remove with the last one and update the hash
// table.
Entry* lastEntry = &aJSHolders.GetLast();
if (aEntry != lastEntry) {
MOZ_ASSERT(lastEntry->mHolder);
*aEntry = *lastEntry;
MOZ_ASSERT(mJSHolderMap.has(aEntry->mHolder));
MOZ_ALWAYS_TRUE(mJSHolderMap.put(aEntry->mHolder, aEntry));
}
aJSHolders.PopLast();
// Return whether aEntry is still in the vector.
return aEntry != lastEntry;
}
bool JSHolderMap::Has(void* aHolder) const { return mJSHolderMap.has(aHolder); }
nsScriptObjectTracer* JSHolderMap::Get(void* aHolder) const {
auto ptr = mJSHolderMap.lookup(aHolder);
if (!ptr) {
return nullptr;
}
Entry* entry = ptr->value();
MOZ_ASSERT(entry->mHolder == aHolder);
return entry->mTracer;
}
nsScriptObjectTracer* JSHolderMap::Extract(void* aHolder) {
MOZ_ASSERT(aHolder);
auto ptr = mJSHolderMap.lookup(aHolder);
if (!ptr) {
return nullptr;
}
Entry* entry = ptr->value();
MOZ_ASSERT(entry->mHolder == aHolder);
nsScriptObjectTracer* tracer = entry->mTracer;
// Clear the entry's contents. It will be removed the next time iteration
// visits this entry.
*entry = Entry();
mJSHolderMap.remove(ptr);
return tracer;
}
void JSHolderMap::Put(void* aHolder, nsScriptObjectTracer* aTracer,
JS::Zone* aZone) {
MOZ_ASSERT(aHolder);
MOZ_ASSERT(aTracer);
// Don't associate multi-zone holders with a zone, even if one is supplied.
if (!aTracer->IsSingleZoneJSHolder()) {
aZone = nullptr;
}
auto ptr = mJSHolderMap.lookupForAdd(aHolder);
if (ptr) {
Entry* entry = ptr->value();
#ifdef DEBUG
MOZ_ASSERT(entry->mHolder == aHolder);
MOZ_ASSERT(entry->mTracer == aTracer,
"Don't call HoldJSObjects in superclass ctors");
if (aZone) {
if (entry->mZone) {
MOZ_ASSERT(entry->mZone == aZone);
} else {
entry->mZone = aZone;
}
}
#endif
entry->mTracer = aTracer;
return;
}
EntryVector* vector = &mAnyZoneJSHolders;
if (aZone) {
auto ptr = mPerZoneJSHolders.lookupForAdd(aZone);
if (!ptr) {
MOZ_ALWAYS_TRUE(
mPerZoneJSHolders.add(ptr, aZone, MakeUnique<EntryVector>()));
}
vector = ptr->value().get();
}
vector->InfallibleAppend(Entry{aHolder, aTracer, aZone});
MOZ_ALWAYS_TRUE(mJSHolderMap.add(ptr, aHolder, &vector->GetLast()));
}
size_t JSHolderMap::SizeOfExcludingThis(MallocSizeOf aMallocSizeOf) const {
size_t n = 0;
// We're deliberately not measuring anything hanging off the entries in
// mJSHolders.
n += mJSHolderMap.shallowSizeOfExcludingThis(aMallocSizeOf);
n += mAnyZoneJSHolders.SizeOfExcludingThis(aMallocSizeOf);
n += mPerZoneJSHolders.shallowSizeOfExcludingThis(aMallocSizeOf);
for (auto i = mPerZoneJSHolders.iter(); !i.done(); i.next()) {
n += i.get().value()->SizeOfExcludingThis(aMallocSizeOf);
}
return n;
}
static bool InitializeShadowRealm(JSContext* aCx,
JS::Handle<JSObject*> aGlobal) {
MOZ_ASSERT(StaticPrefs::javascript_options_experimental_shadow_realms());
JSAutoRealm ar(aCx, aGlobal);
return dom::RegisterShadowRealmBindings(aCx, aGlobal);
}
CycleCollectedJSRuntime::CycleCollectedJSRuntime(JSContext* aCx)
: mContext(nullptr),
mGCThingCycleCollectorGlobal(sGCThingCycleCollectorGlobal),
mJSZoneCycleCollectorGlobal(sJSZoneCycleCollectorGlobal),
mJSRuntime(JS_GetRuntime(aCx)),
mHasPendingIdleGCTask(false),
mPrevGCSliceCallback(nullptr),
mPrevGCNurseryCollectionCallback(nullptr),
mOutOfMemoryState(OOMState::OK),
mLargeAllocationFailureState(OOMState::OK)
#ifdef DEBUG
,
mShutdownCalled(false)
#endif
{
MOZ_COUNT_CTOR(CycleCollectedJSRuntime);
MOZ_ASSERT(aCx);
MOZ_ASSERT(mJSRuntime);
#if defined(XP_MACOSX)
if (!XRE_IsParentProcess()) {
nsMacUtilsImpl::EnableTCSMIfAvailable();
}
#endif
if (!JS_AddExtraGCRootsTracer(aCx, TraceBlackJS, this)) {
MOZ_CRASH("JS_AddExtraGCRootsTracer failed");
}
JS_SetGrayGCRootsTracer(aCx, TraceGrayJS, this);
JS_SetGCCallback(aCx, GCCallback, this);
mPrevGCSliceCallback = JS::SetGCSliceCallback(aCx, GCSliceCallback);
if (NS_IsMainThread()) {
// We would like to support all threads here, but the way timeline consumers
// are set up currently, you can either add a marker for one specific
// docshell, or for every consumer globally. We would like to add a marker
// for every consumer observing anything on this thread, but that is not
// currently possible. For now, add global markers only when we are on the
// main thread, since the UI for this tracing data only displays data
// relevant to the main-thread.
mPrevGCNurseryCollectionCallback =
JS::SetGCNurseryCollectionCallback(aCx, GCNurseryCollectionCallback);
}
JS_SetObjectsTenuredCallback(aCx, JSObjectsTenuredCb, this);
JS::SetOutOfMemoryCallback(aCx, OutOfMemoryCallback, this);
JS::SetWaitCallback(mJSRuntime, BeforeWaitCallback, AfterWaitCallback,
sizeof(dom::AutoYieldJSThreadExecution));
JS::SetWarningReporter(aCx, MozCrashWarningReporter);
JS::SetShadowRealmInitializeGlobalCallback(aCx, InitializeShadowRealm);
JS::SetShadowRealmGlobalCreationCallback(aCx, dom::NewShadowRealmGlobal);
js::AutoEnterOOMUnsafeRegion::setAnnotateOOMAllocationSizeCallback(
CrashReporter::AnnotateOOMAllocationSize);
static js::DOMCallbacks DOMcallbacks = {InstanceClassHasProtoAtDepth};
SetDOMCallbacks(aCx, &DOMcallbacks);
js::SetScriptEnvironmentPreparer(aCx, &mEnvironmentPreparer);
JS::dbg::SetDebuggerMallocSizeOf(aCx, moz_malloc_size_of);
#ifdef MOZ_JS_DEV_ERROR_INTERCEPTOR
JS_SetErrorInterceptorCallback(mJSRuntime, &mErrorInterceptor);
#endif // MOZ_JS_DEV_ERROR_INTERCEPTOR
JS_SetDestroyZoneCallback(aCx, OnZoneDestroyed);
}
#ifdef NS_BUILD_REFCNT_LOGGING
class JSLeakTracer : public JS::CallbackTracer {
public:
explicit JSLeakTracer(JSRuntime* aRuntime)
: JS::CallbackTracer(aRuntime, JS::TracerKind::Callback,
JS::WeakMapTraceAction::TraceKeysAndValues) {}
private:
void onChild(JS::GCCellPtr thing, const char* name) override {
const char* kindName = JS::GCTraceKindToAscii(thing.kind());
size_t size = JS::GCTraceKindSize(thing.kind());
MOZ_LOG_CTOR(thing.asCell(), kindName, size);
}
};
#endif
void CycleCollectedJSRuntime::Shutdown(JSContext* cx) {
#ifdef MOZ_JS_DEV_ERROR_INTERCEPTOR
mErrorInterceptor.Shutdown(mJSRuntime);
#endif // MOZ_JS_DEV_ERROR_INTERCEPTOR
// There should not be any roots left to trace at this point. Ensure any that
// remain are flagged as leaks.
#ifdef NS_BUILD_REFCNT_LOGGING
JSLeakTracer tracer(Runtime());
TraceNativeBlackRoots(&tracer);
TraceAllNativeGrayRoots(&tracer);
#endif
#ifdef DEBUG
mShutdownCalled = true;
#endif
JS_SetDestroyZoneCallback(cx, nullptr);
}
CycleCollectedJSRuntime::~CycleCollectedJSRuntime() {
MOZ_COUNT_DTOR(CycleCollectedJSRuntime);
MOZ_ASSERT(!mDeferredFinalizerTable.Count());
MOZ_ASSERT(!mFinalizeRunnable);
MOZ_ASSERT(mShutdownCalled);
}
void CycleCollectedJSRuntime::SetContext(CycleCollectedJSContext* aContext) {
MOZ_ASSERT(!mContext || !aContext, "Don't replace the context!");
mContext = aContext;
}
size_t CycleCollectedJSRuntime::SizeOfExcludingThis(
MallocSizeOf aMallocSizeOf) const {
return mJSHolders.SizeOfExcludingThis(aMallocSizeOf);
}
void CycleCollectedJSRuntime::UnmarkSkippableJSHolders() {
for (JSHolderMap::Iter entry(mJSHolders); !entry.Done(); entry.Next()) {
entry->mTracer->CanSkip(entry->mHolder, true);
}
}
void CycleCollectedJSRuntime::DescribeGCThing(
bool aIsMarked, JS::GCCellPtr aThing,
nsCycleCollectionTraversalCallback& aCb) const {
if (!aCb.WantDebugInfo()) {
aCb.DescribeGCedNode(aIsMarked, "JS Object");
return;
}
char name[72];
uint64_t compartmentAddress = 0;
if (aThing.is<JSObject>()) {
JSObject* obj = &aThing.as<JSObject>();
compartmentAddress = (uint64_t)JS::GetCompartment(obj);
const JSClass* clasp = JS::GetClass(obj);
// Give the subclass a chance to do something
if (DescribeCustomObjects(obj, clasp, name)) {
// Nothing else to do!
} else if (js::IsFunctionObject(obj)) {
JSFunction* fun = JS_GetObjectFunction(obj);
JSString* str = JS_GetFunctionDisplayId(fun);
if (str) {
JSLinearString* linear = JS_ASSERT_STRING_IS_LINEAR(str);
nsAutoString chars;
AssignJSLinearString(chars, linear);
NS_ConvertUTF16toUTF8 fname(chars);
SprintfLiteral(name, "JS Object (Function - %s)", fname.get());
} else {
SprintfLiteral(name, "JS Object (Function)");
}
} else {
SprintfLiteral(name, "JS Object (%s)", clasp->name);
}
} else {
SprintfLiteral(name, "%s", JS::GCTraceKindToAscii(aThing.kind()));
}
// Disable printing global for objects while we figure out ObjShrink fallout.
aCb.DescribeGCedNode(aIsMarked, name, compartmentAddress);
}
void CycleCollectedJSRuntime::NoteGCThingJSChildren(
JS::GCCellPtr aThing, nsCycleCollectionTraversalCallback& aCb) const {
TraversalTracer trc(mJSRuntime, aCb);
JS::TraceChildren(&trc, aThing);
}
void CycleCollectedJSRuntime::NoteGCThingXPCOMChildren(
const JSClass* aClasp, JSObject* aObj,
nsCycleCollectionTraversalCallback& aCb) const {
MOZ_ASSERT(aClasp);
MOZ_ASSERT(aClasp == JS::GetClass(aObj));
JS::Rooted<JSObject*> obj(RootingCx(), aObj);
if (NoteCustomGCThingXPCOMChildren(aClasp, obj, aCb)) {
// Nothing else to do!
return;
}
// XXX This test does seem fragile, we should probably allowlist classes
// that do hold a strong reference, but that might not be possible.
if (aClasp->slot0IsISupports()) {
NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(aCb, "JS::GetObjectISupports(obj)");
aCb.NoteXPCOMChild(JS::GetObjectISupports<nsISupports>(obj));
return;
}
const DOMJSClass* domClass = GetDOMClass(aClasp);
if (domClass) {
NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(aCb, "UnwrapDOMObject(obj)");
// It's possible that our object is an unforgeable holder object, in
// which case it doesn't actually have a C++ DOM object associated with
// it. Use UnwrapPossiblyNotInitializedDOMObject, which produces null in
// that case, since NoteXPCOMChild/NoteNativeChild are null-safe.
if (domClass->mDOMObjectIsISupports) {
aCb.NoteXPCOMChild(
UnwrapPossiblyNotInitializedDOMObject<nsISupports>(obj));
} else if (domClass->mParticipant) {
aCb.NoteNativeChild(UnwrapPossiblyNotInitializedDOMObject<void>(obj),
domClass->mParticipant);
}
return;
}
if (IsRemoteObjectProxy(obj)) {
auto handler =
static_cast<const RemoteObjectProxyBase*>(js::GetProxyHandler(obj));
return handler->NoteChildren(obj, aCb);
}
JS::Value value = js::MaybeGetScriptPrivate(obj);
if (!value.isUndefined()) {
aCb.NoteXPCOMChild(static_cast<nsISupports*>(value.toPrivate()));
}
}
void CycleCollectedJSRuntime::TraverseGCThing(
TraverseSelect aTs, JS::GCCellPtr aThing,
nsCycleCollectionTraversalCallback& aCb) {
bool isMarkedGray = JS::GCThingIsMarkedGrayInCC(aThing);
if (aTs == TRAVERSE_FULL) {
DescribeGCThing(!isMarkedGray, aThing, aCb);
}
// If this object is alive, then all of its children are alive. For JS
// objects, the black-gray invariant ensures the children are also marked
// black. For C++ objects, the ref count from this object will keep them
// alive. Thus we don't need to trace our children, unless we are debugging
// using WantAllTraces.
if (!isMarkedGray && !aCb.WantAllTraces()) {
return;
}
if (aTs == TRAVERSE_FULL) {
NoteGCThingJSChildren(aThing, aCb);
}
if (aThing.is<JSObject>()) {
JSObject* obj = &aThing.as<JSObject>();
NoteGCThingXPCOMChildren(JS::GetClass(obj), obj, aCb);
}
}
struct TraverseObjectShimClosure {
nsCycleCollectionTraversalCallback& cb;
CycleCollectedJSRuntime* self;
};
void CycleCollectedJSRuntime::TraverseZone(
JS::Zone* aZone, nsCycleCollectionTraversalCallback& aCb) {
/*
* We treat the zone as being gray. We handle non-gray GCthings in the
* zone by not reporting their children to the CC. The black-gray invariant
* ensures that any JS children will also be non-gray, and thus don't need to
* be added to the graph. For C++ children, not representing the edge from the
* non-gray JS GCthings to the C++ object will keep the child alive.
*
* We don't allow zone merging in a WantAllTraces CC, because then these
* assumptions don't hold.
*/
aCb.DescribeGCedNode(false, "JS Zone");
/*
* Every JS child of everything in the zone is either in the zone
* or is a cross-compartment wrapper. In the former case, we don't need to
* represent these edges in the CC graph because JS objects are not ref
* counted. In the latter case, the JS engine keeps a map of these wrappers,
* which we iterate over. Edges between compartments in the same zone will add
* unnecessary loop edges to the graph (bug 842137).
*/
TraversalTracer trc(mJSRuntime, aCb);
js::TraceGrayWrapperTargets(&trc, aZone);
/*
* To find C++ children of things in the zone, we scan every JS Object in
* the zone. Only JS Objects can have C++ children.
*/
TraverseObjectShimClosure closure = {aCb, this};
js::IterateGrayObjects(aZone, TraverseObjectShim, &closure);
}
/* static */
void CycleCollectedJSRuntime::TraverseObjectShim(
void* aData, JS::GCCellPtr aThing, const JS::AutoRequireNoGC& nogc) {
TraverseObjectShimClosure* closure =
static_cast<TraverseObjectShimClosure*>(aData);
MOZ_ASSERT(aThing.is<JSObject>());
closure->self->TraverseGCThing(CycleCollectedJSRuntime::TRAVERSE_CPP, aThing,
closure->cb);
}
void CycleCollectedJSRuntime::TraverseNativeRoots(
nsCycleCollectionNoteRootCallback& aCb) {
// NB: This is here just to preserve the existing XPConnect order. I doubt it
// would hurt to do this after the JS holders.
TraverseAdditionalNativeRoots(aCb);
for (JSHolderMap::Iter entry(mJSHolders); !entry.Done(); entry.Next()) {
void* holder = entry->mHolder;
nsScriptObjectTracer* tracer = entry->mTracer;
bool noteRoot = false;
if (MOZ_UNLIKELY(aCb.WantAllTraces())) {
noteRoot = true;
} else {
tracer->Trace(holder,
TraceCallbackFunc(CheckParticipatesInCycleCollection),
¬eRoot);
}
if (noteRoot) {
aCb.NoteNativeRoot(holder, tracer);
}
}
}
/* static */
void CycleCollectedJSRuntime::TraceBlackJS(JSTracer* aTracer, void* aData) {
CycleCollectedJSRuntime* self = static_cast<CycleCollectedJSRuntime*>(aData);
self->TraceNativeBlackRoots(aTracer);
}
/* static */
bool CycleCollectedJSRuntime::TraceGrayJS(JSTracer* aTracer,
js::SliceBudget& budget,
void* aData) {
CycleCollectedJSRuntime* self = static_cast<CycleCollectedJSRuntime*>(aData);
// Mark these roots as gray so the CC can walk them later.
JSHolderMap::WhichHolders which = JSHolderMap::AllHolders;
// Only trace holders in collecting zones when marking, except if we are
// collecting the atoms zone since any holder may point into that zone.
if (aTracer->isMarkingTracer() &&
!JS::AtomsZoneIsCollecting(self->Runtime())) {
which = JSHolderMap::HoldersRequiredForGrayMarking;
}
return self->TraceNativeGrayRoots(aTracer, which, budget);
}
/* static */
void CycleCollectedJSRuntime::GCCallback(JSContext* aContext,
JSGCStatus aStatus,
JS::GCReason aReason, void* aData) {
CycleCollectedJSRuntime* self = static_cast<CycleCollectedJSRuntime*>(aData);
MOZ_ASSERT(CycleCollectedJSContext::Get()->Context() == aContext);
MOZ_ASSERT(CycleCollectedJSContext::Get()->Runtime() == self);
self->OnGC(aContext, aStatus, aReason);
}
/* static */
void CycleCollectedJSRuntime::GCSliceCallback(JSContext* aContext,
JS::GCProgress aProgress,
const JS::GCDescription& aDesc) {
CycleCollectedJSRuntime* self = CycleCollectedJSRuntime::Get();
MOZ_ASSERT(CycleCollectedJSContext::Get()->Context() == aContext);
if (profiler_thread_is_being_profiled_for_markers()) {
if (aProgress == JS::GC_CYCLE_END) {
struct GCMajorMarker {
static constexpr mozilla::Span<const char> MarkerTypeName() {
return mozilla::MakeStringSpan("GCMajor");
}
static void StreamJSONMarkerData(
mozilla::baseprofiler::SpliceableJSONWriter& aWriter,
const mozilla::ProfilerString8View& aTimingJSON) {
if (aTimingJSON.Length() != 0) {
aWriter.SplicedJSONProperty("timings", aTimingJSON);
} else {
aWriter.NullProperty("timings");
}
}
static mozilla::MarkerSchema MarkerTypeDisplay() {
using MS = mozilla::MarkerSchema;
MS schema{MS::Location::MarkerChart, MS::Location::MarkerTable,
MS::Location::TimelineMemory};
schema.AddStaticLabelValue(
"Description",
"Summary data for an entire major GC, encompassing a set of "
"incremental slices. The main thread is not blocked for the "
"entire major GC interval, only for the individual slices.");
// No display instructions here, there is special handling in the
// front-end.
return schema;
}
};
profiler_add_marker("GCMajor", baseprofiler::category::GCCC,
MarkerTiming::Interval(aDesc.startTime(aContext),
aDesc.endTime(aContext)),
GCMajorMarker{},
ProfilerString8View::WrapNullTerminatedString(
aDesc.formatJSONProfiler(aContext).get()));
} else if (aProgress == JS::GC_SLICE_END) {
struct GCSliceMarker {
static constexpr mozilla::Span<const char> MarkerTypeName() {
return mozilla::MakeStringSpan("GCSlice");
}
static void StreamJSONMarkerData(
mozilla::baseprofiler::SpliceableJSONWriter& aWriter,
const mozilla::ProfilerString8View& aTimingJSON) {
if (aTimingJSON.Length() != 0) {
aWriter.SplicedJSONProperty("timings", aTimingJSON);
} else {
aWriter.NullProperty("timings");
}
}
static mozilla::MarkerSchema MarkerTypeDisplay() {
using MS = mozilla::MarkerSchema;
MS schema{MS::Location::MarkerChart, MS::Location::MarkerTable,
MS::Location::TimelineMemory};
schema.AddStaticLabelValue(
"Description",
"One slice of an incremental garbage collection (GC). The main "
"thread is blocked during this time.");
// No display instructions here, there is special handling in the
// front-end.
return schema;
}
};
profiler_add_marker("GCSlice", baseprofiler::category::GCCC,
MarkerTiming::Interval(aDesc.lastSliceStart(aContext),
aDesc.lastSliceEnd(aContext)),
GCSliceMarker{},
ProfilerString8View::WrapNullTerminatedString(
aDesc.sliceToJSONProfiler(aContext).get()));
}
}
if (aProgress == JS::GC_CYCLE_END &&
JS::dbg::FireOnGarbageCollectionHookRequired(aContext)) {
JS::GCReason reason = aDesc.reason_;
Unused << NS_WARN_IF(
NS_FAILED(DebuggerOnGCRunnable::Enqueue(aContext, aDesc)) &&
reason != JS::GCReason::SHUTDOWN_CC &&
reason != JS::GCReason::DESTROY_RUNTIME &&
reason != JS::GCReason::XPCONNECT_SHUTDOWN);
}
if (self->mPrevGCSliceCallback) {
self->mPrevGCSliceCallback(aContext, aProgress, aDesc);
}
}
class MinorGCMarker : public TimelineMarker {
private:
JS::GCReason mReason;
public:
MinorGCMarker(MarkerTracingType aTracingType, JS::GCReason aReason)
: TimelineMarker("MinorGC", aTracingType, MarkerStackRequest::NO_STACK),
mReason(aReason) {
MOZ_ASSERT(aTracingType == MarkerTracingType::START ||
aTracingType == MarkerTracingType::END);
}
MinorGCMarker(JS::GCNurseryProgress aProgress, JS::GCReason aReason)
: TimelineMarker(
"MinorGC",
aProgress == JS::GCNurseryProgress::GC_NURSERY_COLLECTION_START
? MarkerTracingType::START
: MarkerTracingType::END,
MarkerStackRequest::NO_STACK),
mReason(aReason) {}
virtual void AddDetails(JSContext* aCx,
dom::ProfileTimelineMarker& aMarker) override {
TimelineMarker::AddDetails(aCx, aMarker);
if (GetTracingType() == MarkerTracingType::START) {
auto reason = JS::ExplainGCReason(mReason);
aMarker.mCauseName.Construct(NS_ConvertUTF8toUTF16(reason));
}
}
virtual UniquePtr<AbstractTimelineMarker> Clone() override {
auto clone = MakeUnique<MinorGCMarker>(GetTracingType(), mReason);
clone->SetCustomTime(GetTime());
return UniquePtr<AbstractTimelineMarker>(std::move(clone));
}
};
/* static */
void CycleCollectedJSRuntime::GCNurseryCollectionCallback(
JSContext* aContext, JS::GCNurseryProgress aProgress,
JS::GCReason aReason) {
CycleCollectedJSRuntime* self = CycleCollectedJSRuntime::Get();
MOZ_ASSERT(CycleCollectedJSContext::Get()->Context() == aContext);
MOZ_ASSERT(NS_IsMainThread());
if (!TimelineConsumers::IsEmpty()) {
UniquePtr<AbstractTimelineMarker> abstractMarker(
MakeUnique<MinorGCMarker>(aProgress, aReason));
TimelineConsumers::AddMarkerForAllObservedDocShells(abstractMarker);
}
TimeStamp now = TimeStamp::Now();
if (aProgress == JS::GCNurseryProgress::GC_NURSERY_COLLECTION_START) {
self->mLatestNurseryCollectionStart = now;
} else if (aProgress == JS::GCNurseryProgress::GC_NURSERY_COLLECTION_END) {
PerfStats::RecordMeasurement(PerfStats::Metric::MinorGC,
now - self->mLatestNurseryCollectionStart);
}
if (aProgress == JS::GCNurseryProgress::GC_NURSERY_COLLECTION_END &&
profiler_thread_is_being_profiled_for_markers()) {
struct GCMinorMarker {
static constexpr mozilla::Span<const char> MarkerTypeName() {
return mozilla::MakeStringSpan("GCMinor");
}
static void StreamJSONMarkerData(
mozilla::baseprofiler::SpliceableJSONWriter& aWriter,
const mozilla::ProfilerString8View& aTimingJSON) {
if (aTimingJSON.Length() != 0) {
aWriter.SplicedJSONProperty("nursery", aTimingJSON);
} else {
aWriter.NullProperty("nursery");
}
}
static mozilla::MarkerSchema MarkerTypeDisplay() {
using MS = mozilla::MarkerSchema;
MS schema{MS::Location::MarkerChart, MS::Location::MarkerTable,
MS::Location::TimelineMemory};
schema.AddStaticLabelValue(
"Description",
"A minor GC (aka nursery collection) to clear out the buffer used "
"for recent allocations and move surviving data to the tenured "
"(long-lived) heap.");
// No display instructions here, there is special handling in the
// front-end.
return schema;
}
};
profiler_add_marker(
"GCMinor", baseprofiler::category::GCCC,
MarkerTiming::Interval(self->mLatestNurseryCollectionStart, now),
GCMinorMarker{},
ProfilerString8View::WrapNullTerminatedString(
JS::MinorGcToJSON(aContext).get()));
}
if (self->mPrevGCNurseryCollectionCallback) {
self->mPrevGCNurseryCollectionCallback(aContext, aProgress, aReason);
}
}
/* static */
void CycleCollectedJSRuntime::OutOfMemoryCallback(JSContext* aContext,
void* aData) {
CycleCollectedJSRuntime* self = static_cast<CycleCollectedJSRuntime*>(aData);
MOZ_ASSERT(CycleCollectedJSContext::Get()->Context() == aContext);
MOZ_ASSERT(CycleCollectedJSContext::Get()->Runtime() == self);
self->OnOutOfMemory();
}
/* static */
void* CycleCollectedJSRuntime::BeforeWaitCallback(uint8_t* aMemory) {
MOZ_ASSERT(aMemory);
// aMemory is stack allocated memory to contain our RAII object. This allows
// for us to avoid allocations on the heap during this callback.
return new (aMemory) dom::AutoYieldJSThreadExecution;
}
/* static */
void CycleCollectedJSRuntime::AfterWaitCallback(void* aCookie) {
MOZ_ASSERT(aCookie);
static_cast<dom::AutoYieldJSThreadExecution*>(aCookie)
->~AutoYieldJSThreadExecution();
}
struct JsGcTracer : public TraceCallbacks {
virtual void Trace(JS::Heap<JS::Value>* aPtr, const char* aName,
void* aClosure) const override {
JS::TraceEdge(static_cast<JSTracer*>(aClosure), aPtr, aName);
}
virtual void Trace(JS::Heap<jsid>* aPtr, const char* aName,
void* aClosure) const override {
JS::TraceEdge(static_cast<JSTracer*>(aClosure), aPtr, aName);
}
virtual void Trace(JS::Heap<JSObject*>* aPtr, const char* aName,
void* aClosure) const override {
JS::TraceEdge(static_cast<JSTracer*>(aClosure), aPtr, aName);
}
virtual void Trace(nsWrapperCache* aPtr, const char* aName,
void* aClosure) const override {
aPtr->TraceWrapper(static_cast<JSTracer*>(aClosure), aName);
}
virtual void Trace(JS::TenuredHeap<JSObject*>* aPtr, const char* aName,
void* aClosure) const override {
JS::TraceEdge(static_cast<JSTracer*>(aClosure), aPtr, aName);
}
virtual void Trace(JS::Heap<JSString*>* aPtr, const char* aName,
void* aClosure) const override {
JS::TraceEdge(static_cast<JSTracer*>(aClosure), aPtr, aName);
}
virtual void Trace(JS::Heap<JSScript*>* aPtr, const char* aName,
void* aClosure) const override {
JS::TraceEdge(static_cast<JSTracer*>(aClosure), aPtr, aName);
}
virtual void Trace(JS::Heap<JSFunction*>* aPtr, const char* aName,
void* aClosure) const override {
JS::TraceEdge(static_cast<JSTracer*>(aClosure), aPtr, aName);
}
};
void mozilla::TraceScriptHolder(nsISupports* aHolder, JSTracer* aTracer) {
nsXPCOMCycleCollectionParticipant* participant = nullptr;
CallQueryInterface(aHolder, &participant);
participant->Trace(aHolder, JsGcTracer(), aTracer);
}
#if defined(NIGHTLY_BUILD) || defined(MOZ_DEV_EDITION) || defined(DEBUG)
# define CHECK_SINGLE_ZONE_JS_HOLDERS
#endif
#ifdef CHECK_SINGLE_ZONE_JS_HOLDERS
// A tracer that checks that a JS holder only holds JS GC things in a single
// JS::Zone.
struct CheckZoneTracer : public TraceCallbacks {
const char* mClassName;
mutable JS::Zone* mZone;
explicit CheckZoneTracer(const char* aClassName, JS::Zone* aZone = nullptr)
: mClassName(aClassName), mZone(aZone) {}
void checkZone(JS::Zone* aZone, const char* aName) const {
if (JS::IsAtomsZone(aZone)) {
// Any holder may contain pointers into the atoms zone.
return;
}
if (!mZone) {
mZone = aZone;
return;
}
if (aZone == mZone) {
return;
}
// Most JS holders only contain pointers to GC things in a single zone. We
// group holders by referent zone where possible, allowing us to improve GC
// performance by only tracing holders for zones that are being collected.
//
// Additionally, pointers from any holder into the atoms zone are allowed
// since all holders are traced when we collect the atoms zone.
//
// If you added a holder that has pointers into multiple zones do not
// use NS_IMPL_CYCLE_COLLECTION_SINGLE_ZONE_SCRIPT_HOLDER_CLASS.
MOZ_CRASH_UNSAFE_PRINTF(
"JS holder %s contains pointers to GC things in more than one zone ("
"found in %s)\n",
mClassName, aName);
}
virtual void Trace(JS::Heap<JS::Value>* aPtr, const char* aName,
void* aClosure) const override {
JS::Value value = aPtr->unbarrieredGet();
if (value.isGCThing()) {
checkZone(JS::GetGCThingZone(value.toGCCellPtr()), aName);
}
}
virtual void Trace(JS::Heap<jsid>* aPtr, const char* aName,
void* aClosure) const override {
jsid id = aPtr->unbarrieredGet();
if (id.isGCThing()) {
MOZ_ASSERT(JS::IsAtomsZone(JS::GetTenuredGCThingZone(id.toGCCellPtr())));
}
}
virtual void Trace(JS::Heap<JSObject*>* aPtr, const char* aName,
void* aClosure) const override {
JSObject* obj = aPtr->unbarrieredGet();
if (obj) {
checkZone(js::GetObjectZoneFromAnyThread(obj), aName);
}
}
virtual void Trace(nsWrapperCache* aPtr, const char* aName,
void* aClosure) const override {
JSObject* obj = aPtr->GetWrapperPreserveColor();
if (obj) {
checkZone(js::GetObjectZoneFromAnyThread(obj), aName);
}
}
virtual void Trace(JS::TenuredHeap<JSObject*>* aPtr, const char* aName,
void* aClosure) const override {
JSObject* obj = aPtr->unbarrieredGetPtr();
if (obj) {
checkZone(js::GetObjectZoneFromAnyThread(obj), aName);
}
}
virtual void Trace(JS::Heap<JSString*>* aPtr, const char* aName,
void* aClosure) const override {
JSString* str = aPtr->unbarrieredGet();
if (str) {
checkZone(JS::GetStringZone(str), aName);
}
}
virtual void Trace(JS::Heap<JSScript*>* aPtr, const char* aName,
void* aClosure) const override {
JSScript* script = aPtr->unbarrieredGet();
if (script) {
checkZone(JS::GetTenuredGCThingZone(JS::GCCellPtr(script)), aName);
}
}
virtual void Trace(JS::Heap<JSFunction*>* aPtr, const char* aName,
void* aClosure) const override {
JSFunction* fun = aPtr->unbarrieredGet();
if (fun) {
checkZone(js::GetObjectZoneFromAnyThread(JS_GetFunctionObject(fun)),
aName);
}
}
};
static inline void CheckHolderIsSingleZone(
void* aHolder, nsCycleCollectionParticipant* aParticipant,
JS::Zone* aZone) {
CheckZoneTracer tracer(aParticipant->ClassName(), aZone);
aParticipant->Trace(aHolder, tracer, nullptr);
}
#endif
static inline bool ShouldCheckSingleZoneHolders() {
#if defined(DEBUG)
return true;
#elif defined(NIGHTLY_BUILD) || defined(MOZ_DEV_EDITION)
// Don't check every time to avoid performance impact.
return rand() % 256 == 0;
#else
return false;
#endif
}
#ifdef NS_BUILD_REFCNT_LOGGING
void CycleCollectedJSRuntime::TraceAllNativeGrayRoots(JSTracer* aTracer) {
MOZ_RELEASE_ASSERT(mHolderIter.isNothing());
js::SliceBudget budget = js::SliceBudget::unlimited();
MOZ_ALWAYS_TRUE(
TraceNativeGrayRoots(aTracer, JSHolderMap::AllHolders, budget));
}
#endif
bool CycleCollectedJSRuntime::TraceNativeGrayRoots(
JSTracer* aTracer, JSHolderMap::WhichHolders aWhich,
js::SliceBudget& aBudget) {
if (!mHolderIter) {
// NB: This is here just to preserve the existing XPConnect order. I doubt
// it would hurt to do this after the JS holders.
TraceAdditionalNativeGrayRoots(aTracer);
mHolderIter.emplace(mJSHolders, aWhich);
aBudget.stepAndForceCheck();
} else {
// Holders may have been removed between slices, so we may need to update
// the iterator.
mHolderIter->UpdateForRemovals();
}
bool finished = TraceJSHolders(aTracer, *mHolderIter, aBudget);
if (finished) {
mHolderIter.reset();
}
return finished;
}
bool CycleCollectedJSRuntime::TraceJSHolders(JSTracer* aTracer,
JSHolderMap::Iter& aIter,
js::SliceBudget& aBudget) {
bool checkSingleZoneHolders = ShouldCheckSingleZoneHolders();
while (!aIter.Done() && !aBudget.isOverBudget()) {
void* holder = aIter->mHolder;
nsScriptObjectTracer* tracer = aIter->mTracer;
#ifdef CHECK_SINGLE_ZONE_JS_HOLDERS
if (checkSingleZoneHolders && tracer->IsSingleZoneJSHolder()) {
CheckHolderIsSingleZone(holder, tracer, aIter.Zone());
}
#else
Unused << checkSingleZoneHolders;
#endif
tracer->Trace(holder, JsGcTracer(), aTracer);
aIter.Next();
aBudget.step();
}
return aIter.Done();
}
void CycleCollectedJSRuntime::AddJSHolder(void* aHolder,
nsScriptObjectTracer* aTracer,
JS::Zone* aZone) {
mJSHolders.Put(aHolder, aTracer, aZone);
}
struct ClearJSHolder : public TraceCallbacks {
virtual void Trace(JS::Heap<JS::Value>* aPtr, const char*,
void*) const override {
aPtr->setUndefined();
}
virtual void Trace(JS::Heap<jsid>* aPtr, const char*, void*) const override {
*aPtr = JS::PropertyKey::Void();
}
virtual void Trace(JS::Heap<JSObject*>* aPtr, const char*,
void*) const override {
*aPtr = nullptr;
}
virtual void Trace(nsWrapperCache* aPtr, const char* aName,
void* aClosure) const override {
aPtr->ClearWrapper();
}
virtual void Trace(JS::TenuredHeap<JSObject*>* aPtr, const char*,
void*) const override {
*aPtr = nullptr;
}
virtual void Trace(JS::Heap<JSString*>* aPtr, const char*,
void*) const override {
*aPtr = nullptr;
}
virtual void Trace(JS::Heap<JSScript*>* aPtr, const char*,
void*) const override {
*aPtr = nullptr;
}
virtual void Trace(JS::Heap<JSFunction*>* aPtr, const char*,
void*) const override {
*aPtr = nullptr;
}
};
void CycleCollectedJSRuntime::RemoveJSHolder(void* aHolder) {
nsScriptObjectTracer* tracer = mJSHolders.Extract(aHolder);
if (tracer) {
// Bug 1531951: The analysis can't see through the virtual call but we know
// that the ClearJSHolder tracer will never GC.
JS::AutoSuppressGCAnalysis nogc;
tracer->Trace(aHolder, ClearJSHolder(), nullptr);
}
}
#ifdef DEBUG
static void AssertNoGcThing(JS::GCCellPtr aGCThing, const char* aName,
void* aClosure) {
MOZ_ASSERT(!aGCThing);
}
void CycleCollectedJSRuntime::AssertNoObjectsToTrace(void* aPossibleJSHolder) {
nsScriptObjectTracer* tracer = mJSHolders.Get(aPossibleJSHolder);
if (tracer) {
tracer->Trace(aPossibleJSHolder, TraceCallbackFunc(AssertNoGcThing),
nullptr);
}
}
#endif
nsCycleCollectionParticipant* CycleCollectedJSRuntime::GCThingParticipant() {
return &mGCThingCycleCollectorGlobal;
}
nsCycleCollectionParticipant* CycleCollectedJSRuntime::ZoneParticipant() {
return &mJSZoneCycleCollectorGlobal;
}
nsresult CycleCollectedJSRuntime::TraverseRoots(
nsCycleCollectionNoteRootCallback& aCb) {
TraverseNativeRoots(aCb);
NoteWeakMapsTracer trc(mJSRuntime, aCb);
js::TraceWeakMaps(&trc);
return NS_OK;
}
bool CycleCollectedJSRuntime::UsefulToMergeZones() const { return false; }
void CycleCollectedJSRuntime::FixWeakMappingGrayBits() const {
MOZ_ASSERT(!JS::IsIncrementalGCInProgress(mJSRuntime),
"Don't call FixWeakMappingGrayBits during a GC.");
FixWeakMappingGrayBitsTracer fixer(mJSRuntime);
fixer.FixAll();
}
void CycleCollectedJSRuntime::CheckGrayBits() const {
MOZ_ASSERT(!JS::IsIncrementalGCInProgress(mJSRuntime),
"Don't call CheckGrayBits during a GC.");
#ifndef ANDROID
// Bug 1346874 - The gray state check is expensive. Android tests are already
// slow enough that this check can easily push them over the threshold to a
// timeout.
MOZ_ASSERT(js::CheckGrayMarkingState(mJSRuntime));
MOZ_ASSERT(CheckWeakMappingGrayBitsTracer::Check(mJSRuntime));
#endif
}
bool CycleCollectedJSRuntime::AreGCGrayBitsValid() const {
return js::AreGCGrayBitsValid(mJSRuntime);
}
void CycleCollectedJSRuntime::GarbageCollect(JS::GCOptions aOptions,
JS::GCReason aReason) const {
JSContext* cx = CycleCollectedJSContext::Get()->Context();
JS::PrepareForFullGC(cx);
JS::NonIncrementalGC(cx, aOptions, aReason);
}
void CycleCollectedJSRuntime::JSObjectsTenured() {
JSContext* cx = CycleCollectedJSContext::Get()->Context();
for (auto iter = mNurseryObjects.Iter(); !iter.Done(); iter.Next()) {
nsWrapperCache* cache = iter.Get();
JSObject* wrapper = cache->GetWrapperMaybeDead();
MOZ_DIAGNOSTIC_ASSERT(wrapper);
if (!JS::ObjectIsTenured(wrapper)) {
MOZ_ASSERT(!cache->PreservingWrapper());
js::gc::FinalizeDeadNurseryObject(cx, wrapper);
}
}
mNurseryObjects.Clear();
}
void CycleCollectedJSRuntime::NurseryWrapperAdded(nsWrapperCache* aCache) {
MOZ_ASSERT(aCache);
MOZ_ASSERT(aCache->GetWrapperMaybeDead());
MOZ_ASSERT(!JS::ObjectIsTenured(aCache->GetWrapperMaybeDead()));
mNurseryObjects.InfallibleAppend(aCache);
}
void CycleCollectedJSRuntime::DeferredFinalize(
DeferredFinalizeAppendFunction aAppendFunc, DeferredFinalizeFunction aFunc,
void* aThing) {
// Tell the analysis that the function pointers will not GC.
JS::AutoSuppressGCAnalysis suppress;
mDeferredFinalizerTable.WithEntryHandle(aFunc, [&](auto&& entry) {
if (entry) {
aAppendFunc(entry.Data(), aThing);
} else {
entry.Insert(aAppendFunc(nullptr, aThing));
}
});
}
void CycleCollectedJSRuntime::DeferredFinalize(nsISupports* aSupports) {
typedef DeferredFinalizerImpl<nsISupports> Impl;
DeferredFinalize(Impl::AppendDeferredFinalizePointer, Impl::DeferredFinalize,
aSupports);
}
void CycleCollectedJSRuntime::DumpJSHeap(FILE* aFile) {
JSContext* cx = CycleCollectedJSContext::Get()->Context();
mozilla::MallocSizeOf mallocSizeOf =
PR_GetEnv("MOZ_GC_LOG_SIZE") ? moz_malloc_size_of : nullptr;
js::DumpHeap(cx, aFile, js::CollectNurseryBeforeDump, mallocSizeOf);
}
IncrementalFinalizeRunnable::IncrementalFinalizeRunnable(
CycleCollectedJSRuntime* aRt, DeferredFinalizerTable& aFinalizers)
: DiscardableRunnable("IncrementalFinalizeRunnable"),
mRuntime(aRt),
mFinalizeFunctionToRun(0),
mReleasing(false) {
for (auto iter = aFinalizers.Iter(); !iter.Done(); iter.Next()) {
DeferredFinalizeFunction& function = iter.Key();
void*& data = iter.Data();
DeferredFinalizeFunctionHolder* holder =
mDeferredFinalizeFunctions.AppendElement();
holder->run = function;
holder->data = data;
iter.Remove();
}
MOZ_ASSERT(mDeferredFinalizeFunctions.Length());
}
IncrementalFinalizeRunnable::~IncrementalFinalizeRunnable() {
MOZ_ASSERT(!mDeferredFinalizeFunctions.Length());
MOZ_ASSERT(!mRuntime);
}
void IncrementalFinalizeRunnable::ReleaseNow(bool aLimited) {
if (mReleasing) {
NS_WARNING("Re-entering ReleaseNow");
return;
}
{
AUTO_PROFILER_LABEL("IncrementalFinalizeRunnable::ReleaseNow",
GCCC_Finalize);
mozilla::AutoRestore<bool> ar(mReleasing);
mReleasing = true;
MOZ_ASSERT(mDeferredFinalizeFunctions.Length() != 0,
"We should have at least ReleaseSliceNow to run");
MOZ_ASSERT(mFinalizeFunctionToRun < mDeferredFinalizeFunctions.Length(),
"No more finalizers to run?");
TimeDuration sliceTime = TimeDuration::FromMilliseconds(SliceMillis);
TimeStamp started = aLimited ? TimeStamp::Now() : TimeStamp();
bool timeout = false;
do {
const DeferredFinalizeFunctionHolder& function =
mDeferredFinalizeFunctions[mFinalizeFunctionToRun];
if (aLimited) {
bool done = false;
while (!timeout && !done) {
/*
* We don't want to read the clock too often, so we try to
* release slices of 100 items.
*/
done = function.run(100, function.data);
timeout = TimeStamp::Now() - started >= sliceTime;
}
if (done) {
++mFinalizeFunctionToRun;
}
if (timeout) {
break;
}
} else {
while (!function.run(UINT32_MAX, function.data))
;
++mFinalizeFunctionToRun;
}
} while (mFinalizeFunctionToRun < mDeferredFinalizeFunctions.Length());
}
if (mFinalizeFunctionToRun == mDeferredFinalizeFunctions.Length()) {
MOZ_ASSERT(mRuntime->mFinalizeRunnable == this);
mDeferredFinalizeFunctions.Clear();
CycleCollectedJSRuntime* runtime = mRuntime;
mRuntime = nullptr;
// NB: This may delete this!
runtime->mFinalizeRunnable = nullptr;
}
}
NS_IMETHODIMP
IncrementalFinalizeRunnable::Run() {
if (!mDeferredFinalizeFunctions.Length()) {
/* These items were already processed synchronously in JSGC_END. */
MOZ_ASSERT(!mRuntime);
return NS_OK;
}
MOZ_ASSERT(mRuntime->mFinalizeRunnable == this);
TimeStamp start = TimeStamp::Now();
ReleaseNow(true);
if (mDeferredFinalizeFunctions.Length()) {
nsresult rv = NS_DispatchToCurrentThread(this);
if (NS_FAILED(rv)) {
ReleaseNow(false);
}
} else {
MOZ_ASSERT(!mRuntime);
}
uint32_t duration = (uint32_t)((TimeStamp::Now() - start).ToMilliseconds());
Telemetry::Accumulate(Telemetry::DEFERRED_FINALIZE_ASYNC, duration);
return NS_OK;
}
void CycleCollectedJSRuntime::FinalizeDeferredThings(
CycleCollectedJSContext::DeferredFinalizeType aType) {
/*
* If the previous GC created a runnable to finalize objects
* incrementally, and if it hasn't finished yet, finish it now. We
* don't want these to build up. We also don't want to allow any
* existing incremental finalize runnables to run after a
* non-incremental GC, since they are often used to detect leaks.
*/
if (mFinalizeRunnable) {
mFinalizeRunnable->ReleaseNow(false);
if (mFinalizeRunnable) {
// If we re-entered ReleaseNow, we couldn't delete mFinalizeRunnable and
// we need to just continue processing it.
return;
}
}
if (mDeferredFinalizerTable.Count() == 0) {
return;
}
mFinalizeRunnable =
new IncrementalFinalizeRunnable(this, mDeferredFinalizerTable);
// Everything should be gone now.
MOZ_ASSERT(mDeferredFinalizerTable.Count() == 0);
if (aType == CycleCollectedJSContext::FinalizeIncrementally) {
NS_DispatchToCurrentThreadQueue(do_AddRef(mFinalizeRunnable), 2500,
EventQueuePriority::Idle);
} else {
mFinalizeRunnable->ReleaseNow(false);
MOZ_ASSERT(!mFinalizeRunnable);
}
}
const char* CycleCollectedJSRuntime::OOMStateToString(
const OOMState aOomState) const {
switch (aOomState) {
case OOMState::OK:
return "OK";
case OOMState::Reporting:
return "Reporting";
case OOMState::Reported:
return "Reported";
case OOMState::Recovered:
return "Recovered";
default:
MOZ_ASSERT_UNREACHABLE("OOMState holds an invalid value");
return "Unknown";
}
}
void CycleCollectedJSRuntime::AnnotateAndSetOutOfMemory(OOMState* aStatePtr,
OOMState aNewState) {
*aStatePtr = aNewState;
CrashReporter::Annotation annotation =
(aStatePtr == &mOutOfMemoryState)
? CrashReporter::Annotation::JSOutOfMemory
: CrashReporter::Annotation::JSLargeAllocationFailure;
CrashReporter::AnnotateCrashReport(
annotation, nsDependentCString(OOMStateToString(aNewState)));
}
void CycleCollectedJSRuntime::OnGC(JSContext* aContext, JSGCStatus aStatus,
JS::GCReason aReason) {
switch (aStatus) {
case JSGC_BEGIN:
MOZ_RELEASE_ASSERT(mHolderIter.isNothing());
nsCycleCollector_prepareForGarbageCollection();
PrepareWaitingZonesForGC();
break;
case JSGC_END: {
MOZ_RELEASE_ASSERT(mHolderIter.isNothing());
if (mOutOfMemoryState == OOMState::Reported) {
AnnotateAndSetOutOfMemory(&mOutOfMemoryState, OOMState::Recovered);
}
if (mLargeAllocationFailureState == OOMState::Reported) {
AnnotateAndSetOutOfMemory(&mLargeAllocationFailureState,
OOMState::Recovered);
}
// Do any deferred finalization of native objects. We will run the
// finalizer later after we've returned to the event loop if any of
// three conditions hold:
// a) The GC is incremental. In this case, we probably care about pauses.
// b) There is a pending exception. The finalizers are not set up to run
// in that state.
// c) The GC was triggered for internal JS engine reasons. If this is the
// case, then we may be in the middle of running some code that the JIT
// has assumed can't have certain kinds of side effects. Finalizers can do
// all sorts of things, such as run JS, so we want to run them later.
// However, if we're shutting down, we need to destroy things immediately.
//
// Why do we ever bother finalizing things immediately if that's so
// questionable? In some situations, such as while testing or in low
// memory situations, we really want to free things right away.
bool finalizeIncrementally = JS::WasIncrementalGC(mJSRuntime) ||
JS_IsExceptionPending(aContext) ||
(JS::InternalGCReason(aReason) &&
aReason != JS::GCReason::DESTROY_RUNTIME);
FinalizeDeferredThings(
finalizeIncrementally ? CycleCollectedJSContext::FinalizeIncrementally
: CycleCollectedJSContext::FinalizeNow);
break;
}
default:
MOZ_CRASH();
}
CustomGCCallback(aStatus);
}
void CycleCollectedJSRuntime::OnOutOfMemory() {
AnnotateAndSetOutOfMemory(&mOutOfMemoryState, OOMState::Reporting);
CustomOutOfMemoryCallback();
AnnotateAndSetOutOfMemory(&mOutOfMemoryState, OOMState::Reported);
}
void CycleCollectedJSRuntime::SetLargeAllocationFailure(OOMState aNewState) {
AnnotateAndSetOutOfMemory(&mLargeAllocationFailureState, aNewState);
}
void CycleCollectedJSRuntime::PrepareWaitingZonesForGC() {
JSContext* cx = CycleCollectedJSContext::Get()->Context();
if (mZonesWaitingForGC.Count() == 0) {
JS::PrepareForFullGC(cx);
} else {
for (const auto& key : mZonesWaitingForGC) {
JS::PrepareZoneForGC(cx, key);
}
mZonesWaitingForGC.Clear();
}
}
/* static */
void CycleCollectedJSRuntime::OnZoneDestroyed(JS::GCContext* aGcx,
JS::Zone* aZone) {
// Remove the zone from the set of zones waiting for GC, if present. This can
// happen if a zone is added to the set during an incremental GC in which it
// is later destroyed.
CycleCollectedJSRuntime* runtime = Get();
runtime->mZonesWaitingForGC.Remove(aZone);
}
void CycleCollectedJSRuntime::EnvironmentPreparer::invoke(
JS::HandleObject global, js::ScriptEnvironmentPreparer::Closure& closure) {
MOZ_ASSERT(JS_IsGlobalObject(global));
nsIGlobalObject* nativeGlobal = xpc::NativeGlobal(global);
// Not much we can do if we simply don't have a usable global here...
NS_ENSURE_TRUE_VOID(nativeGlobal && nativeGlobal->HasJSGlobal());
AutoEntryScript aes(nativeGlobal, "JS-engine-initiated execution");
MOZ_ASSERT(!JS_IsExceptionPending(aes.cx()));
DebugOnly<bool> ok = closure(aes.cx());
MOZ_ASSERT_IF(ok, !JS_IsExceptionPending(aes.cx()));
// The AutoEntryScript will check for JS_IsExceptionPending on the
// JSContext and report it as needed as it comes off the stack.
}
/* static */
CycleCollectedJSRuntime* CycleCollectedJSRuntime::Get() {
auto context = CycleCollectedJSContext::Get();
if (context) {
return context->Runtime();
}
return nullptr;
}
#ifdef MOZ_JS_DEV_ERROR_INTERCEPTOR
namespace js {
extern void DumpValue(const JS::Value& val);
}
void CycleCollectedJSRuntime::ErrorInterceptor::Shutdown(JSRuntime* rt) {
JS_SetErrorInterceptorCallback(rt, nullptr);
mThrownError.reset();
}
/* virtual */
void CycleCollectedJSRuntime::ErrorInterceptor::interceptError(
JSContext* cx, JS::HandleValue exn) {
if (mThrownError) {
// We already have an error, we don't need anything more.
return;
}
if (!nsContentUtils::ThreadsafeIsSystemCaller(cx)) {
// We are only interested in chrome code.
return;
}
const auto type = JS_GetErrorType(exn);
if (!type) {
// This is not one of the primitive error types.
return;
}
switch (*type) {
case JSExnType::JSEXN_REFERENCEERR:
case JSExnType::JSEXN_SYNTAXERR:
break;
default:
// Not one of the errors we are interested in.
// Note that we are not interested in instances of `TypeError`
// for the time being, as DOM (ab)uses this constructor to represent
// all sorts of errors that are not even remotely related to type
// errors (e.g. some network errors).
// If we ever have a mechanism to differentiate between DOM-thrown
// and SpiderMonkey-thrown instances of `TypeError`, we should
// consider watching for `TypeError` here.
return;
}
// Now copy the details of the exception locally.
// While copying the details of an exception could be expensive, in most runs,
// this will be done at most once during the execution of the process, so the
// total cost should be reasonable.
ErrorDetails details;
details.mType = *type;
// If `exn` isn't an exception object, `ExtractErrorValues` could end up
// calling `toString()`, which could in turn end up throwing an error. While
// this should work, we want to avoid that complex use case. Fortunately, we
// have already checked above that `exn` is an exception object, so nothing
// such should happen.
nsContentUtils::ExtractErrorValues(cx, exn, details.mFilename, &details.mLine,
&details.mColumn, details.mMessage);
JS::UniqueChars buf =
JS::FormatStackDump(cx, /* showArgs = */ false, /* showLocals = */ false,
/* showThisProps = */ false);
CopyUTF8toUTF16(mozilla::MakeStringSpan(buf.get()), details.mStack);
mThrownError.emplace(std::move(details));
}
void CycleCollectedJSRuntime::ClearRecentDevError() {
mErrorInterceptor.mThrownError.reset();
}
bool CycleCollectedJSRuntime::GetRecentDevError(
JSContext* cx, JS::MutableHandle<JS::Value> error) {
if (!mErrorInterceptor.mThrownError) {
return true;
}
// Create a copy of the exception.
JS::RootedObject obj(cx, JS_NewPlainObject(cx));
if (!obj) {
return false;
}
JS::RootedValue message(cx);
JS::RootedValue filename(cx);
JS::RootedValue stack(cx);
if (!ToJSValue(cx, mErrorInterceptor.mThrownError->mMessage, &message) ||
!ToJSValue(cx, mErrorInterceptor.mThrownError->mFilename, &filename) ||
!ToJSValue(cx, mErrorInterceptor.mThrownError->mStack, &stack)) {
return false;
}
// Build the object.
const auto FLAGS = JSPROP_READONLY | JSPROP_ENUMERATE | JSPROP_PERMANENT;
if (!JS_DefineProperty(cx, obj, "message", message, FLAGS) ||
!JS_DefineProperty(cx, obj, "fileName", filename, FLAGS) ||
!JS_DefineProperty(cx, obj, "lineNumber",
mErrorInterceptor.mThrownError->mLine, FLAGS) ||
!JS_DefineProperty(cx, obj, "stack", stack, FLAGS)) {
return false;
}
// Pass the result.
error.setObject(*obj);
return true;
}
#endif // MOZ_JS_DEV_ERROR_INTERCEPTOR
#undef MOZ_JS_DEV_ERROR_INTERCEPTOR
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