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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
#include "js/MemoryMetrics.h"
#include "mozilla/MathAlgorithms.h"
#include <algorithm>
#include "gc/GC.h"
#include "gc/Memory.h"
#include "gc/Nursery.h"
#include "gc/PublicIterators.h"
#include "jit/BaselineJIT.h"
#include "jit/Ion.h"
#include "js/HeapAPI.h"
#include "util/Text.h"
#include "vm/BigIntType.h"
#include "vm/HelperThreadState.h"
#include "vm/JSObject.h"
#include "vm/JSScript.h"
#include "vm/PropMap.h"
#include "vm/Realm.h"
#include "vm/Runtime.h"
#include "vm/Shape.h"
#include "vm/StringType.h"
#include "wasm/WasmInstance.h"
#include "wasm/WasmJS.h"
#include "wasm/WasmModule.h"
#include "wasm/WasmInstance-inl.h"
using mozilla::MallocSizeOf;
using namespace js;
using JS::ObjectPrivateVisitor;
using JS::RealmStats;
using JS::RuntimeStats;
using JS::ZoneStats;
namespace js {
JS_PUBLIC_API size_t MemoryReportingSundriesThreshold() { return 8 * 1024; }
/* static */
HashNumber InefficientNonFlatteningStringHashPolicy::hash(const Lookup& l) {
if (l->isLinear()) {
return HashStringChars(&l->asLinear());
}
// Use rope's non-copying hash function.
uint32_t hash = 0;
if (!l->asRope().hash(&hash)) {
MOZ_CRASH("oom");
}
return hash;
}
template <typename Char1, typename Char2>
static bool EqualStringsPure(JSString* s1, JSString* s2) {
if (s1->length() != s2->length()) {
return false;
}
const Char1* c1;
UniquePtr<Char1[], JS::FreePolicy> ownedChars1;
JS::AutoCheckCannotGC nogc;
if (s1->isLinear()) {
c1 = s1->asLinear().chars<Char1>(nogc);
} else {
ownedChars1 =
s1->asRope().copyChars<Char1>(/* tcx */ nullptr, js::MallocArena);
if (!ownedChars1) {
MOZ_CRASH("oom");
}
c1 = ownedChars1.get();
}
const Char2* c2;
UniquePtr<Char2[], JS::FreePolicy> ownedChars2;
if (s2->isLinear()) {
c2 = s2->asLinear().chars<Char2>(nogc);
} else {
ownedChars2 =
s2->asRope().copyChars<Char2>(/* tcx */ nullptr, js::MallocArena);
if (!ownedChars2) {
MOZ_CRASH("oom");
}
c2 = ownedChars2.get();
}
return EqualChars(c1, c2, s1->length());
}
/* static */
bool InefficientNonFlatteningStringHashPolicy::match(const JSString* const& k,
const Lookup& l) {
// We can't use js::EqualStrings, because that flattens our strings.
JSString* s1 = const_cast<JSString*>(k);
if (k->hasLatin1Chars()) {
return l->hasLatin1Chars() ? EqualStringsPure<Latin1Char, Latin1Char>(s1, l)
: EqualStringsPure<Latin1Char, char16_t>(s1, l);
}
return l->hasLatin1Chars() ? EqualStringsPure<char16_t, Latin1Char>(s1, l)
: EqualStringsPure<char16_t, char16_t>(s1, l);
}
} // namespace js
namespace JS {
template <typename CharT>
static void StoreStringChars(char* buffer, size_t bufferSize, JSString* str) {
const CharT* chars;
UniquePtr<CharT[], JS::FreePolicy> ownedChars;
JS::AutoCheckCannotGC nogc;
if (str->isLinear()) {
chars = str->asLinear().chars<CharT>(nogc);
} else {
ownedChars =
str->asRope().copyChars<CharT>(/* tcx */ nullptr, js::MallocArena);
if (!ownedChars) {
MOZ_CRASH("oom");
}
chars = ownedChars.get();
}
// We might truncate |str| even if it's much shorter than 1024 chars, if
// |str| contains unicode chars. Since this is just for a memory reporter,
// we don't care.
PutEscapedString(buffer, bufferSize, chars, str->length(), /* quote */ 0);
}
NotableStringInfo::NotableStringInfo(JSString* str, const StringInfo& info)
: StringInfo(info), length(str->length()) {
size_t bufferSize = std::min(str->length() + 1, size_t(MAX_SAVED_CHARS));
buffer.reset(js_pod_malloc<char>(bufferSize));
if (!buffer) {
MOZ_CRASH("oom");
}
if (str->hasLatin1Chars()) {
StoreStringChars<Latin1Char>(buffer.get(), bufferSize, str);
} else {
StoreStringChars<char16_t>(buffer.get(), bufferSize, str);
}
}
NotableClassInfo::NotableClassInfo(const char* className, const ClassInfo& info)
: ClassInfo(info) {
className_ = DuplicateString(className);
if (!className_) {
MOZ_CRASH("oom");
}
}
NotableScriptSourceInfo::NotableScriptSourceInfo(const char* filename,
const ScriptSourceInfo& info)
: ScriptSourceInfo(info) {
filename_ = DuplicateString(filename);
if (!filename_) {
MOZ_CRASH("oom");
}
}
} // namespace JS
using SourceSet =
HashSet<ScriptSource*, DefaultHasher<ScriptSource*>, SystemAllocPolicy>;
struct StatsClosure {
RuntimeStats* rtStats;
ObjectPrivateVisitor* opv;
SourceSet seenSources;
wasm::CodeMetadata::SeenSet wasmSeenCodeMetadata;
js::CodeMetadataForAsmJS::SeenSet wasmSeenCodeMetadataForAsmJS;
wasm::Code::SeenSet wasmSeenCode;
wasm::Table::SeenSet wasmSeenTables;
bool anonymize;
StatsClosure(RuntimeStats* rt, ObjectPrivateVisitor* v, bool anon)
: rtStats(rt), opv(v), anonymize(anon) {}
};
static void DecommittedPagesChunkCallback(JSRuntime* rt, void* data,
gc::ArenaChunk* chunk,
const JS::AutoRequireNoGC& nogc) {
auto* gcHeapDecommittedPages = static_cast<size_t*>(data);
*gcHeapDecommittedPages += chunk->decommittedPages.Count() * gc::PageSize;
}
static void StatsZoneCallback(JSRuntime* rt, void* data, Zone* zone,
const JS::AutoRequireNoGC& nogc) {
// Append a new RealmStats to the vector.
RuntimeStats* rtStats = static_cast<StatsClosure*>(data)->rtStats;
// CollectRuntimeStats reserves enough space.
MOZ_ALWAYS_TRUE(rtStats->zoneStatsVector.growBy(1));
ZoneStats& zStats = rtStats->zoneStatsVector.back();
zStats.initStrings();
rtStats->initExtraZoneStats(zone, &zStats, nogc);
rtStats->currZoneStats = &zStats;
zone->addSizeOfIncludingThis(
rtStats->mallocSizeOf_, &zStats.zoneObject, &zStats.code,
&zStats.regexpZone, &zStats.jitZone, &zStats.cacheIRStubs,
&zStats.uniqueIdMap, &zStats.initialPropMapTable, &zStats.shapeTables,
&rtStats->runtime.atomsMarkBitmaps, &zStats.compartmentObjects,
&zStats.crossCompartmentWrappersTables, &zStats.compartmentsPrivateData,
&zStats.scriptCountsMap);
}
static void StatsRealmCallback(JSContext* cx, void* data, Realm* realm,
const JS::AutoRequireNoGC& nogc) {
// Append a new RealmStats to the vector.
RuntimeStats* rtStats = static_cast<StatsClosure*>(data)->rtStats;
// CollectRuntimeStats reserves enough space.
MOZ_ALWAYS_TRUE(rtStats->realmStatsVector.growBy(1));
RealmStats& realmStats = rtStats->realmStatsVector.back();
realmStats.initClasses();
rtStats->initExtraRealmStats(realm, &realmStats, nogc);
realm->setRealmStats(&realmStats);
// Measure the realm object itself, and things hanging off it.
realm->addSizeOfIncludingThis(
rtStats->mallocSizeOf_, &realmStats.realmObject, &realmStats.realmTables,
&realmStats.innerViewsTable, &realmStats.objectMetadataTable,
&realmStats.savedStacksSet, &realmStats.nonSyntacticLexicalScopesTable);
}
static void StatsArenaCallback(JSRuntime* rt, void* data, gc::Arena* arena,
JS::TraceKind traceKind, size_t thingSize,
const JS::AutoRequireNoGC& nogc) {
RuntimeStats* rtStats = static_cast<StatsClosure*>(data)->rtStats;
// The admin space includes (a) the header fields and (b) the padding
// between the end of the header fields and the first GC thing.
size_t allocationSpace = gc::Arena::thingsSpan(arena->getAllocKind());
rtStats->currZoneStats->gcHeapArenaAdmin += gc::ArenaSize - allocationSpace;
// We don't call the callback on unused things. So we compute the
// unused space like this: arenaUnused = maxArenaUnused - arenaUsed.
// We do this by setting arenaUnused to maxArenaUnused here, and then
// subtracting thingSize for every used cell, in StatsCellCallback().
rtStats->currZoneStats->unusedGCThings.addToKind(traceKind, allocationSpace);
}
// FineGrained is used for normal memory reporting. CoarseGrained is used by
// AddSizeOfTab(), which aggregates all the measurements into a handful of
// high-level numbers, which means that fine-grained reporting would be a waste
// of effort.
enum Granularity { FineGrained, CoarseGrained };
static void AddClassInfo(Granularity granularity, RealmStats& realmStats,
const char* className, JS::ClassInfo& info) {
if (granularity == FineGrained) {
if (!className) {
className = "<no class name>";
}
RealmStats::ClassesHashMap::AddPtr p =
realmStats.allClasses->lookupForAdd(className);
if (!p) {
bool ok = realmStats.allClasses->add(p, className, info);
// Ignore failure -- we just won't record the
// object/shape/base-shape as notable.
(void)ok;
} else {
p->value().add(info);
}
}
}
template <Granularity granularity>
static void CollectScriptSourceStats(StatsClosure* closure, ScriptSource* ss) {
RuntimeStats* rtStats = closure->rtStats;
SourceSet::AddPtr entry = closure->seenSources.lookupForAdd(ss);
if (entry) {
return;
}
bool ok = closure->seenSources.add(entry, ss);
(void)ok; // Not much to be done on failure.
JS::ScriptSourceInfo info; // This zeroes all the sizes.
ss->addSizeOfIncludingThis(rtStats->mallocSizeOf_, &info);
rtStats->runtime.scriptSourceInfo.add(info);
if (granularity == FineGrained) {
const char* filename = ss->filename();
if (!filename) {
filename = "<no filename>";
}
JS::RuntimeSizes::ScriptSourcesHashMap::AddPtr p =
rtStats->runtime.allScriptSources->lookupForAdd(filename);
if (!p) {
bool ok = rtStats->runtime.allScriptSources->add(p, filename, info);
// Ignore failure -- we just won't record the script source as notable.
(void)ok;
} else {
p->value().add(info);
}
}
}
// The various kinds of hashing are expensive, and the results are unused when
// doing coarse-grained measurements. Skipping them more than doubles the
// profile speed for complex pages such as gmail.com.
template <Granularity granularity>
static void StatsCellCallback(JSRuntime* rt, void* data, JS::GCCellPtr cellptr,
size_t thingSize,
const JS::AutoRequireNoGC& nogc) {
StatsClosure* closure = static_cast<StatsClosure*>(data);
RuntimeStats* rtStats = closure->rtStats;
ZoneStats* zStats = rtStats->currZoneStats;
JS::TraceKind kind = cellptr.kind();
switch (kind) {
case JS::TraceKind::Object: {
JSObject* obj = &cellptr.as<JSObject>();
RealmStats& realmStats = obj->maybeCCWRealm()->realmStats();
JS::ClassInfo info; // This zeroes all the sizes.
info.objectsGCHeap += thingSize;
if (!obj->isTenured()) {
info.objectsGCHeap += Nursery::nurseryCellHeaderSize();
}
obj->addSizeOfExcludingThis(rtStats->mallocSizeOf_, &info,
&rtStats->runtime);
// These classes require special handling due to shared resources which
// we must be careful not to report twice.
if (obj->is<WasmModuleObject>()) {
const wasm::Module& module = obj->as<WasmModuleObject>().module();
ScriptSource* ss = module.codeMetaForAsmJS()
? module.codeMetaForAsmJS()->maybeScriptSource()
: nullptr;
if (ss) {
CollectScriptSourceStats<granularity>(closure, ss);
}
module.addSizeOfMisc(
rtStats->mallocSizeOf_, &closure->wasmSeenCodeMetadata,
&closure->wasmSeenCodeMetadataForAsmJS, &closure->wasmSeenCode,
&info.objectsNonHeapCodeWasm, &info.objectsMallocHeapMisc);
} else if (obj->is<WasmInstanceObject>()) {
wasm::Instance& instance = obj->as<WasmInstanceObject>().instance();
ScriptSource* ss =
instance.codeMetaForAsmJS()
? instance.codeMetaForAsmJS()->maybeScriptSource()
: nullptr;
if (ss) {
CollectScriptSourceStats<granularity>(closure, ss);
}
instance.addSizeOfMisc(
rtStats->mallocSizeOf_, &closure->wasmSeenCodeMetadata,
&closure->wasmSeenCodeMetadataForAsmJS, &closure->wasmSeenCode,
&closure->wasmSeenTables, &info.objectsNonHeapCodeWasm,
&info.objectsMallocHeapMisc);
}
realmStats.classInfo.add(info);
const JSClass* clasp = obj->getClass();
const char* className = clasp->name;
AddClassInfo(granularity, realmStats, className, info);
if (ObjectPrivateVisitor* opv = closure->opv) {
nsISupports* iface;
if (opv->getISupports_(obj, &iface) && iface) {
realmStats.objectsPrivate += opv->sizeOfIncludingThis(iface);
}
}
break;
}
case JS::TraceKind::Script: {
BaseScript* base = &cellptr.as<BaseScript>();
RealmStats& realmStats = base->realm()->realmStats();
realmStats.scriptsGCHeap += thingSize;
realmStats.scriptsMallocHeapData +=
base->sizeOfExcludingThis(rtStats->mallocSizeOf_);
if (base->hasJitScript()) {
JSScript* script = static_cast<JSScript*>(base);
script->addSizeOfJitScript(rtStats->mallocSizeOf_,
&realmStats.jitScripts,
&realmStats.allocSites);
jit::AddSizeOfBaselineData(script, rtStats->mallocSizeOf_,
&realmStats.baselineData);
realmStats.ionData +=
jit::SizeOfIonData(script, rtStats->mallocSizeOf_);
}
CollectScriptSourceStats<granularity>(closure, base->scriptSource());
break;
}
case JS::TraceKind::String: {
JSString* str = &cellptr.as<JSString>();
size_t size = thingSize;
if (!str->isTenured()) {
size += Nursery::nurseryCellHeaderSize();
}
JS::StringInfo info;
if (str->hasLatin1Chars()) {
info.gcHeapLatin1 = size;
info.mallocHeapLatin1 =
str->sizeOfExcludingThis(rtStats->mallocSizeOf_);
} else {
info.gcHeapTwoByte = size;
info.mallocHeapTwoByte =
str->sizeOfExcludingThis(rtStats->mallocSizeOf_);
}
info.numCopies = 1;
zStats->stringInfo.add(info);
// The primary use case for anonymization is automated crash submission
// (to help detect OOM crashes). In that case, we don't want to pay the
// memory cost required to do notable string detection.
if (granularity == FineGrained && !closure->anonymize) {
ZoneStats::StringsHashMap::AddPtr p =
zStats->allStrings->lookupForAdd(str);
if (!p) {
bool ok = zStats->allStrings->add(p, str, info);
// Ignore failure -- we just won't record the string as notable.
(void)ok;
} else {
p->value().add(info);
}
}
break;
}
case JS::TraceKind::Symbol:
zStats->symbolsGCHeap += thingSize;
break;
case JS::TraceKind::BigInt: {
JS::BigInt* bi = &cellptr.as<BigInt>();
size_t size = thingSize;
if (!bi->isTenured()) {
size += Nursery::nurseryCellHeaderSize();
}
zStats->bigIntsGCHeap += size;
zStats->bigIntsMallocHeap +=
bi->sizeOfExcludingThis(rtStats->mallocSizeOf_);
break;
}
case JS::TraceKind::BaseShape: {
JS::ShapeInfo info; // This zeroes all the sizes.
info.shapesGCHeapBase += thingSize;
// No malloc-heap measurements.
zStats->shapeInfo.add(info);
break;
}
case JS::TraceKind::GetterSetter: {
zStats->getterSettersGCHeap += thingSize;
break;
}
case JS::TraceKind::PropMap: {
PropMap* map = &cellptr.as<PropMap>();
if (map->isDictionary()) {
zStats->dictPropMapsGCHeap += thingSize;
} else if (map->isCompact()) {
zStats->compactPropMapsGCHeap += thingSize;
} else {
MOZ_ASSERT(map->isNormal());
zStats->normalPropMapsGCHeap += thingSize;
}
map->addSizeOfExcludingThis(rtStats->mallocSizeOf_,
&zStats->propMapChildren,
&zStats->propMapTables);
break;
}
case JS::TraceKind::JitCode: {
zStats->jitCodesGCHeap += thingSize;
// The code for a script is counted in ExecutableAllocator::sizeOfCode().
break;
}
case JS::TraceKind::Shape: {
Shape* shape = &cellptr.as<Shape>();
JS::ShapeInfo info; // This zeroes all the sizes.
if (shape->isDictionary()) {
info.shapesGCHeapDict += thingSize;
} else {
info.shapesGCHeapShared += thingSize;
}
shape->addSizeOfExcludingThis(rtStats->mallocSizeOf_, &info);
zStats->shapeInfo.add(info);
break;
}
case JS::TraceKind::Scope: {
Scope* scope = &cellptr.as<Scope>();
zStats->scopesGCHeap += thingSize;
zStats->scopesMallocHeap +=
scope->sizeOfExcludingThis(rtStats->mallocSizeOf_);
break;
}
case JS::TraceKind::RegExpShared: {
auto regexp = &cellptr.as<RegExpShared>();
zStats->regExpSharedsGCHeap += thingSize;
zStats->regExpSharedsMallocHeap +=
regexp->sizeOfExcludingThis(rtStats->mallocSizeOf_);
break;
}
default:
MOZ_CRASH("invalid traceKind in StatsCellCallback");
}
// Yes, this is a subtraction: see StatsArenaCallback() for details.
zStats->unusedGCThings.addToKind(kind, -thingSize);
}
void ZoneStats::initStrings() {
isTotals = false;
allStrings.emplace();
}
void RealmStats::initClasses() {
isTotals = false;
allClasses.emplace();
}
static bool FindNotableStrings(ZoneStats& zStats) {
using namespace JS;
// We should only run FindNotableStrings once per ZoneStats object.
MOZ_ASSERT(zStats.notableStrings.empty());
for (ZoneStats::StringsHashMap::Range r = zStats.allStrings->all();
!r.empty(); r.popFront()) {
JSString* str = r.front().key();
StringInfo& info = r.front().value();
if (!info.isNotable()) {
continue;
}
if (!zStats.notableStrings.emplaceBack(str, info)) {
return false;
}
// We're moving this string from a non-notable to a notable bucket, so
// subtract it out of the non-notable tallies.
zStats.stringInfo.subtract(info);
}
// Release |allStrings| now, rather than waiting for zStats's destruction, to
// reduce peak memory consumption during reporting.
zStats.allStrings.reset();
return true;
}
static bool FindNotableClasses(RealmStats& realmStats) {
using namespace JS;
// We should only run FindNotableClasses once per ZoneStats object.
MOZ_ASSERT(realmStats.notableClasses.empty());
for (RealmStats::ClassesHashMap::Range r = realmStats.allClasses->all();
!r.empty(); r.popFront()) {
const char* className = r.front().key();
ClassInfo& info = r.front().value();
// If this class isn't notable, or if we can't grow the notableStrings
// vector, skip this string.
if (!info.isNotable()) {
continue;
}
if (!realmStats.notableClasses.emplaceBack(className, info)) {
return false;
}
// We're moving this class from a non-notable to a notable bucket, so
// subtract it out of the non-notable tallies.
realmStats.classInfo.subtract(info);
}
// Release |allClasses| now, rather than waiting for zStats's destruction, to
// reduce peak memory consumption during reporting.
realmStats.allClasses.reset();
return true;
}
static bool FindNotableScriptSources(JS::RuntimeSizes& runtime) {
using namespace JS;
// We should only run FindNotableScriptSources once per RuntimeSizes.
MOZ_ASSERT(runtime.notableScriptSources.empty());
for (RuntimeSizes::ScriptSourcesHashMap::Range r =
runtime.allScriptSources->all();
!r.empty(); r.popFront()) {
const char* filename = r.front().key();
ScriptSourceInfo& info = r.front().value();
if (!info.isNotable()) {
continue;
}
if (!runtime.notableScriptSources.emplaceBack(filename, info)) {
return false;
}
// We're moving this script source from a non-notable to a notable
// bucket, so subtract its sizes from the non-notable tallies.
runtime.scriptSourceInfo.subtract(info);
}
// Release |allScriptSources| now, rather than waiting for zStats's
// destruction, to reduce peak memory consumption during reporting.
runtime.allScriptSources.reset();
return true;
}
static bool CollectRuntimeStatsHelper(JSContext* cx, RuntimeStats* rtStats,
ObjectPrivateVisitor* opv, bool anonymize,
IterateCellCallback statsCellCallback) {
// Finish any ongoing incremental GC that may change the data we're gathering
// and ensure that we don't do anything that could start another one.
gc::FinishGC(cx);
JS::AutoAssertNoGC nogc(cx);
// Wait for any background tasks to finish.
WaitForAllHelperThreads();
JSRuntime* rt = cx->runtime();
if (!rtStats->realmStatsVector.reserve(rt->numRealms)) {
return false;
}
size_t totalZones = rt->gc.zones().length();
if (!rtStats->zoneStatsVector.reserve(totalZones)) {
return false;
}
rtStats->gcHeapChunkTotal =
size_t(JS_GetGCParameter(cx, JSGC_TOTAL_CHUNKS)) * gc::ChunkSize;
rtStats->gcHeapUnusedChunks =
size_t(JS_GetGCParameter(cx, JSGC_UNUSED_CHUNKS)) * gc::ChunkSize;
if (js::gc::DecommitEnabled()) {
IterateChunks(cx, &rtStats->gcHeapDecommittedPages,
DecommittedPagesChunkCallback);
}
// Take the per-compartment measurements.
StatsClosure closure(rtStats, opv, anonymize);
IterateHeapUnbarriered(cx, &closure, StatsZoneCallback, StatsRealmCallback,
StatsArenaCallback, statsCellCallback);
// Take the "explicit/js/runtime/" measurements.
rt->addSizeOfIncludingThis(rtStats->mallocSizeOf_, &rtStats->runtime);
if (!FindNotableScriptSources(rtStats->runtime)) {
return false;
}
JS::ZoneStatsVector& zs = rtStats->zoneStatsVector;
ZoneStats& zTotals = rtStats->zTotals;
// We don't look for notable strings for zTotals. So we first sum all the
// zones' measurements to get the totals. Then we find the notable strings
// within each zone.
for (size_t i = 0; i < zs.length(); i++) {
zTotals.addSizes(zs[i]);
}
for (size_t i = 0; i < zs.length(); i++) {
if (!FindNotableStrings(zs[i])) {
return false;
}
}
MOZ_ASSERT(!zTotals.allStrings);
JS::RealmStatsVector& realmStats = rtStats->realmStatsVector;
RealmStats& realmTotals = rtStats->realmTotals;
// As with the zones, we sum all realms first, and then get the
// notable classes within each zone.
for (size_t i = 0; i < realmStats.length(); i++) {
realmTotals.addSizes(realmStats[i]);
}
for (size_t i = 0; i < realmStats.length(); i++) {
if (!FindNotableClasses(realmStats[i])) {
return false;
}
}
MOZ_ASSERT(!realmTotals.allClasses);
rtStats->gcHeapGCThings = rtStats->zTotals.sizeOfLiveGCThings() +
rtStats->realmTotals.sizeOfLiveGCThings();
#ifdef DEBUG
// Check that the in-arena measurements look ok.
size_t totalArenaSize = rtStats->zTotals.gcHeapArenaAdmin +
rtStats->zTotals.unusedGCThings.totalSize() +
rtStats->gcHeapGCThings;
MOZ_ASSERT(totalArenaSize % gc::ArenaSize == 0);
#endif
for (RealmsIter realm(rt); !realm.done(); realm.next()) {
realm->nullRealmStats();
}
size_t numDirtyChunks =
(rtStats->gcHeapChunkTotal - rtStats->gcHeapUnusedChunks) / gc::ChunkSize;
size_t perChunkAdmin =
sizeof(gc::ArenaChunk) - (sizeof(gc::Arena) * gc::ArenasPerChunk);
rtStats->gcHeapChunkAdmin = numDirtyChunks * perChunkAdmin;
// |gcHeapUnusedArenas| is the only thing left. Compute it in terms of
// all the others. See the comment in RuntimeStats for explanation.
rtStats->gcHeapUnusedArenas =
rtStats->gcHeapChunkTotal - rtStats->gcHeapDecommittedPages -
rtStats->gcHeapUnusedChunks -
rtStats->zTotals.unusedGCThings.totalSize() - rtStats->gcHeapChunkAdmin -
rtStats->zTotals.gcHeapArenaAdmin - rtStats->gcHeapGCThings;
return true;
}
JS_PUBLIC_API bool JS::CollectGlobalStats(GlobalStats* gStats) {
AutoLockHelperThreadState lock;
// HelperThreadState holds data that is not part of a Runtime. This does
// not include data is is currently being processed by a HelperThread.
if (IsHelperThreadStateInitialized()) {
HelperThreadState().addSizeOfIncludingThis(gStats, lock);
}
return true;
}
JS_PUBLIC_API bool JS::CollectRuntimeStats(JSContext* cx, RuntimeStats* rtStats,
ObjectPrivateVisitor* opv,
bool anonymize) {
return CollectRuntimeStatsHelper(cx, rtStats, opv, anonymize,
StatsCellCallback<FineGrained>);
}
JS_PUBLIC_API size_t JS::SystemCompartmentCount(JSContext* cx) {
size_t n = 0;
for (CompartmentsIter comp(cx->runtime()); !comp.done(); comp.next()) {
if (IsSystemCompartment(comp)) {
++n;
}
}
return n;
}
JS_PUBLIC_API size_t JS::UserCompartmentCount(JSContext* cx) {
size_t n = 0;
for (CompartmentsIter comp(cx->runtime()); !comp.done(); comp.next()) {
if (!IsSystemCompartment(comp)) {
++n;
}
}
return n;
}
JS_PUBLIC_API size_t JS::SystemRealmCount(JSContext* cx) {
size_t n = 0;
for (RealmsIter realm(cx->runtime()); !realm.done(); realm.next()) {
if (realm->isSystem()) {
++n;
}
}
return n;
}
JS_PUBLIC_API size_t JS::UserRealmCount(JSContext* cx) {
size_t n = 0;
for (RealmsIter realm(cx->runtime()); !realm.done(); realm.next()) {
if (!realm->isSystem()) {
++n;
}
}
return n;
}
JS_PUBLIC_API size_t JS::PeakSizeOfTemporary(const JSContext* cx) {
return cx->tempLifoAlloc().peakSizeOfExcludingThis();
}
namespace JS {
class SimpleJSRuntimeStats : public JS::RuntimeStats {
public:
explicit SimpleJSRuntimeStats(MallocSizeOf mallocSizeOf)
: JS::RuntimeStats(mallocSizeOf) {}
virtual void initExtraZoneStats(JS::Zone* zone, JS::ZoneStats* zStats,
const JS::AutoRequireNoGC& nogc) override {}
virtual void initExtraRealmStats(Realm* realm, JS::RealmStats* realmStats,
const JS::AutoRequireNoGC& nogc) override {}
};
JS_PUBLIC_API bool AddSizeOfTab(JSContext* cx, HandleObject obj,
MallocSizeOf mallocSizeOf,
ObjectPrivateVisitor* opv, TabSizes* sizes) {
SimpleJSRuntimeStats rtStats(mallocSizeOf);
JS::Zone* zone = GetObjectZone(obj);
size_t numRealms = 0;
for (CompartmentsInZoneIter comp(zone); !comp.done(); comp.next()) {
numRealms += comp->realms().length();
}
if (!rtStats.realmStatsVector.reserve(numRealms)) {
return false;
}
if (!rtStats.zoneStatsVector.reserve(1)) {
return false;
}
// Take the per-compartment measurements. No need to anonymize because
// these measurements will be aggregated.
StatsClosure closure(&rtStats, opv, /* anonymize = */ false);
IterateHeapUnbarrieredForZone(cx, zone, &closure, StatsZoneCallback,
StatsRealmCallback, StatsArenaCallback,
StatsCellCallback<CoarseGrained>);
MOZ_ASSERT(rtStats.zoneStatsVector.length() == 1);
rtStats.zTotals.addSizes(rtStats.zoneStatsVector[0]);
for (size_t i = 0; i < rtStats.realmStatsVector.length(); i++) {
rtStats.realmTotals.addSizes(rtStats.realmStatsVector[i]);
}
for (RealmsInZoneIter realm(zone); !realm.done(); realm.next()) {
realm->nullRealmStats();
}
rtStats.zTotals.addToTabSizes(sizes);
rtStats.realmTotals.addToTabSizes(sizes);
return true;
}
JS_PUBLIC_API bool AddServoSizeOf(JSContext* cx, MallocSizeOf mallocSizeOf,
ObjectPrivateVisitor* opv,
ServoSizes* sizes) {
SimpleJSRuntimeStats rtStats(mallocSizeOf);
// No need to anonymize because the results will be aggregated.
if (!CollectRuntimeStatsHelper(cx, &rtStats, opv, /* anonymize = */ false,
StatsCellCallback<CoarseGrained>))
return false;
#ifdef DEBUG
size_t gcHeapTotalOriginal = sizes->gcHeapUsed + sizes->gcHeapUnused +
sizes->gcHeapAdmin + sizes->gcHeapDecommitted;
#endif
rtStats.addToServoSizes(sizes);
rtStats.zTotals.addToServoSizes(sizes);
rtStats.realmTotals.addToServoSizes(sizes);
#ifdef DEBUG
size_t gcHeapTotal = sizes->gcHeapUsed + sizes->gcHeapUnused +
sizes->gcHeapAdmin + sizes->gcHeapDecommitted;
MOZ_ASSERT(rtStats.gcHeapChunkTotal == gcHeapTotal - gcHeapTotalOriginal);
#endif
return true;
}
} // namespace JS