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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "gc/Allocator.h"
#include "jscntxt.h"
#include "gc/GCInternals.h"
#include "gc/GCTrace.h"
#include "gc/Nursery.h"
#include "jit/JitCompartment.h"
#include "vm/Runtime.h"
#include "vm/String.h"
#include "jsobjinlines.h"
#include "gc/Heap-inl.h"
using namespace js;
using namespace gc;
template <typename T, AllowGC allowGC /* = CanGC */>
JSObject*
js::Allocate(ExclusiveContext* cx, AllocKind kind, size_t nDynamicSlots, InitialHeap heap,
const Class* clasp)
{
static_assert(mozilla::IsConvertible<T*, JSObject*>::value, "must be JSObject derived");
MOZ_ASSERT(IsObjectAllocKind(kind));
size_t thingSize = Arena::thingSize(kind);
MOZ_ASSERT(thingSize == Arena::thingSize(kind));
MOZ_ASSERT(thingSize >= sizeof(JSObject_Slots0));
static_assert(sizeof(JSObject_Slots0) >= CellSize,
"All allocations must be at least the allocator-imposed minimum size.");
MOZ_ASSERT_IF(nDynamicSlots != 0, clasp->isNative() || clasp->isProxy());
// Off-main-thread alloc cannot trigger GC or make runtime assertions.
if (!cx->isJSContext()) {
JSObject* obj = GCRuntime::tryNewTenuredObject<NoGC>(cx, kind, thingSize, nDynamicSlots);
if (MOZ_UNLIKELY(allowGC && !obj))
ReportOutOfMemory(cx);
return obj;
}
JSContext* ncx = cx->asJSContext();
JSRuntime* rt = ncx->runtime();
if (!rt->gc.checkAllocatorState<allowGC>(ncx, kind))
return nullptr;
if (ncx->nursery().isEnabled() && heap != TenuredHeap) {
JSObject* obj = rt->gc.tryNewNurseryObject<allowGC>(ncx, thingSize, nDynamicSlots, clasp);
if (obj)
return obj;
// Our most common non-jit allocation path is NoGC; thus, if we fail the
// alloc and cannot GC, we *must* return nullptr here so that the caller
// will do a CanGC allocation to clear the nursery. Failing to do so will
// cause all allocations on this path to land in Tenured, and we will not
// get the benefit of the nursery.
if (!allowGC)
return nullptr;
}
return GCRuntime::tryNewTenuredObject<allowGC>(cx, kind, thingSize, nDynamicSlots);
}
template JSObject* js::Allocate<JSObject, NoGC>(ExclusiveContext* cx, gc::AllocKind kind,
size_t nDynamicSlots, gc::InitialHeap heap,
const Class* clasp);
template JSObject* js::Allocate<JSObject, CanGC>(ExclusiveContext* cx, gc::AllocKind kind,
size_t nDynamicSlots, gc::InitialHeap heap,
const Class* clasp);
// Attempt to allocate a new GC thing out of the nursery. If there is not enough
// room in the nursery or there is an OOM, this method will return nullptr.
template <AllowGC allowGC>
JSObject*
GCRuntime::tryNewNurseryObject(JSContext* cx, size_t thingSize, size_t nDynamicSlots, const Class* clasp)
{
MOZ_ASSERT(isNurseryAllocAllowed());
MOZ_ASSERT(!cx->zone()->usedByExclusiveThread);
MOZ_ASSERT(!IsAtomsCompartment(cx->compartment()));
JSObject* obj = nursery.allocateObject(cx, thingSize, nDynamicSlots, clasp);
if (obj)
return obj;
if (allowGC && !rt->mainThread.suppressGC) {
minorGC(JS::gcreason::OUT_OF_NURSERY);
// Exceeding gcMaxBytes while tenuring can disable the Nursery.
if (nursery.isEnabled()) {
JSObject* obj = nursery.allocateObject(cx, thingSize, nDynamicSlots, clasp);
MOZ_ASSERT(obj);
return obj;
}
}
return nullptr;
}
template <AllowGC allowGC>
JSObject*
GCRuntime::tryNewTenuredObject(ExclusiveContext* cx, AllocKind kind, size_t thingSize,
size_t nDynamicSlots)
{
HeapSlot* slots = nullptr;
if (nDynamicSlots) {
slots = cx->zone()->pod_malloc<HeapSlot>(nDynamicSlots);
if (MOZ_UNLIKELY(!slots)) {
if (allowGC)
ReportOutOfMemory(cx);
return nullptr;
}
Debug_SetSlotRangeToCrashOnTouch(slots, nDynamicSlots);
}
JSObject* obj = tryNewTenuredThing<JSObject, allowGC>(cx, kind, thingSize);
if (obj)
obj->setInitialSlotsMaybeNonNative(slots);
else
js_free(slots);
return obj;
}
template <typename T, AllowGC allowGC /* = CanGC */>
T*
js::Allocate(ExclusiveContext* cx)
{
static_assert(!mozilla::IsConvertible<T*, JSObject*>::value, "must not be JSObject derived");
static_assert(sizeof(T) >= CellSize,
"All allocations must be at least the allocator-imposed minimum size.");
AllocKind kind = MapTypeToFinalizeKind<T>::kind;
size_t thingSize = sizeof(T);
MOZ_ASSERT(thingSize == Arena::thingSize(kind));
if (cx->isJSContext()) {
JSContext* ncx = cx->asJSContext();
if (!ncx->runtime()->gc.checkAllocatorState<allowGC>(ncx, kind))
return nullptr;
}
return GCRuntime::tryNewTenuredThing<T, allowGC>(cx, kind, thingSize);
}
#define DECL_ALLOCATOR_INSTANCES(allocKind, traceKind, type, sizedType) \
template type* js::Allocate<type, NoGC>(ExclusiveContext* cx);\
template type* js::Allocate<type, CanGC>(ExclusiveContext* cx);
FOR_EACH_NONOBJECT_ALLOCKIND(DECL_ALLOCATOR_INSTANCES)
#undef DECL_ALLOCATOR_INSTANCES
template <typename T, AllowGC allowGC>
/* static */ T*
GCRuntime::tryNewTenuredThing(ExclusiveContext* cx, AllocKind kind, size_t thingSize)
{
// Bump allocate in the arena's current free-list span.
T* t = reinterpret_cast<T*>(cx->arenas()->allocateFromFreeList(kind, thingSize));
if (MOZ_UNLIKELY(!t)) {
// Get the next available free list and allocate out of it. This may
// acquire a new arena, which will lock the chunk list. If there are no
// chunks available it may also allocate new memory directly.
t = reinterpret_cast<T*>(refillFreeListFromAnyThread(cx, kind, thingSize));
if (MOZ_UNLIKELY(!t && allowGC && cx->isJSContext())) {
// We have no memory available for a new chunk; perform an
// all-compartments, non-incremental, shrinking GC and wait for
// sweeping to finish.
JS::PrepareForFullGC(cx->asJSContext());
AutoKeepAtoms keepAtoms(cx->perThreadData);
cx->asJSContext()->gc.gc(GC_SHRINK, JS::gcreason::LAST_DITCH);
cx->asJSContext()->gc.waitBackgroundSweepOrAllocEnd();
t = tryNewTenuredThing<T, NoGC>(cx, kind, thingSize);
if (!t)
ReportOutOfMemory(cx);
}
}
checkIncrementalZoneState(cx, t);
TraceTenuredAlloc(t, kind);
return t;
}
template <AllowGC allowGC>
bool
GCRuntime::checkAllocatorState(JSContext* cx, AllocKind kind)
{
if (allowGC) {
if (!gcIfNeededPerAllocation(cx))
return false;
}
#if defined(DEBUG)
MOZ_ASSERT_IF(cx->compartment()->isAtomsCompartment(),
kind == AllocKind::ATOM ||
kind == AllocKind::FAT_INLINE_ATOM ||
kind == AllocKind::SYMBOL ||
kind == AllocKind::JITCODE ||
kind == AllocKind::SCOPE);
MOZ_ASSERT_IF(!cx->compartment()->isAtomsCompartment(),
kind != AllocKind::ATOM &&
kind != AllocKind::FAT_INLINE_ATOM);
MOZ_ASSERT(!rt->isHeapBusy());
MOZ_ASSERT(isAllocAllowed());
#endif
// Crash if we perform a GC action when it is not safe.
if (allowGC && !rt->mainThread.suppressGC)
rt->gc.verifyIsSafeToGC();
// For testing out of memory conditions
if (js::oom::ShouldFailWithOOM()) {
// If we are doing a fallible allocation, percolate up the OOM
// instead of reporting it.
if (allowGC)
ReportOutOfMemory(cx);
return false;
}
return true;
}
bool
GCRuntime::gcIfNeededPerAllocation(JSContext* cx)
{
// Invoking the interrupt callback can fail and we can't usefully
// handle that here. Just check in case we need to collect instead.
if (rt->hasPendingInterrupt())
gcIfRequested();
// If we have grown past our GC heap threshold while in the middle of
// an incremental GC, we're growing faster than we're GCing, so stop
// the world and do a full, non-incremental GC right now, if possible.
if (isIncrementalGCInProgress() &&
cx->zone()->usage.gcBytes() > cx->zone()->threshold.gcTriggerBytes())
{
PrepareZoneForGC(cx->zone());
AutoKeepAtoms keepAtoms(cx->perThreadData);
gc(GC_NORMAL, JS::gcreason::INCREMENTAL_TOO_SLOW);
}
return true;
}
template <typename T>
/* static */ void
GCRuntime::checkIncrementalZoneState(ExclusiveContext* cx, T* t)
{
#ifdef DEBUG
if (!cx->isJSContext())
return;
Zone* zone = cx->asJSContext()->zone();
MOZ_ASSERT_IF(t && zone->wasGCStarted() && (zone->isGCMarking() || zone->isGCSweeping()),
t->asTenured().arena()->allocatedDuringIncremental);
#endif
}
// /////////// Arena -> Thing Allocator //////////////////////////////////////
void
GCRuntime::startBackgroundAllocTaskIfIdle()
{
AutoLockHelperThreadState helperLock;
if (allocTask.isRunningWithLockHeld(helperLock))
return;
// Join the previous invocation of the task. This will return immediately
// if the thread has never been started.
allocTask.joinWithLockHeld(helperLock);
allocTask.startWithLockHeld(helperLock);
}
/* static */ TenuredCell*
GCRuntime::refillFreeListFromAnyThread(ExclusiveContext* cx, AllocKind thingKind, size_t thingSize)
{
cx->arenas()->checkEmptyFreeList(thingKind);
if (cx->isJSContext())
return refillFreeListFromMainThread(cx->asJSContext(), thingKind, thingSize);
return refillFreeListOffMainThread(cx, thingKind);
}
/* static */ TenuredCell*
GCRuntime::refillFreeListFromMainThread(JSContext* cx, AllocKind thingKind, size_t thingSize)
{
// It should not be possible to allocate on the main thread while we are
// inside a GC.
Zone *zone = cx->zone();
MOZ_ASSERT(!cx->runtime()->isHeapBusy(), "allocating while under GC");
AutoMaybeStartBackgroundAllocation maybeStartBGAlloc;
return cx->arenas()->allocateFromArena(zone, thingKind, CheckThresholds, maybeStartBGAlloc);
}
/* static */ TenuredCell*
GCRuntime::refillFreeListOffMainThread(ExclusiveContext* cx, AllocKind thingKind)
{
// A GC may be happening on the main thread, but zones used by exclusive
// contexts are never collected.
Zone* zone = cx->zone();
MOZ_ASSERT(!zone->wasGCStarted());
AutoMaybeStartBackgroundAllocation maybeStartBGAlloc;
return cx->arenas()->allocateFromArena(zone, thingKind, CheckThresholds, maybeStartBGAlloc);
}
/* static */ TenuredCell*
GCRuntime::refillFreeListInGC(Zone* zone, AllocKind thingKind)
{
/*
* Called by compacting GC to refill a free list while we are in a GC.
*/
zone->arenas.checkEmptyFreeList(thingKind);
mozilla::DebugOnly<JSRuntime*> rt = zone->runtimeFromMainThread();
MOZ_ASSERT(rt->isHeapCollecting());
MOZ_ASSERT_IF(!rt->isHeapMinorCollecting(), !rt->gc.isBackgroundSweeping());
AutoMaybeStartBackgroundAllocation maybeStartBackgroundAllocation;
return zone->arenas.allocateFromArena(zone, thingKind, DontCheckThresholds,
maybeStartBackgroundAllocation);
}
TenuredCell*
ArenaLists::allocateFromArena(JS::Zone* zone, AllocKind thingKind,
ShouldCheckThresholds checkThresholds,
AutoMaybeStartBackgroundAllocation& maybeStartBGAlloc)
{
JSRuntime* rt = zone->runtimeFromAnyThread();
mozilla::Maybe<AutoLockGC> maybeLock;
// See if we can proceed without taking the GC lock.
if (backgroundFinalizeState[thingKind] != BFS_DONE)
maybeLock.emplace(rt);
ArenaList& al = arenaLists[thingKind];
Arena* arena = al.takeNextArena();
if (arena) {
// Empty arenas should be immediately freed.
MOZ_ASSERT(!arena->isEmpty());
return allocateFromArenaInner(zone, arena, thingKind);
}
// Parallel threads have their own ArenaLists, but chunks are shared;
// if we haven't already, take the GC lock now to avoid racing.
if (maybeLock.isNothing())
maybeLock.emplace(rt);
Chunk* chunk = rt->gc.pickChunk(maybeLock.ref(), maybeStartBGAlloc);
if (!chunk)
return nullptr;
// Although our chunk should definitely have enough space for another arena,
// there are other valid reasons why Chunk::allocateArena() may fail.
arena = rt->gc.allocateArena(chunk, zone, thingKind, checkThresholds, maybeLock.ref());
if (!arena)
return nullptr;
MOZ_ASSERT(al.isCursorAtEnd());
al.insertBeforeCursor(arena);
return allocateFromArenaInner(zone, arena, thingKind);
}
inline TenuredCell*
ArenaLists::allocateFromArenaInner(JS::Zone* zone, Arena* arena, AllocKind kind)
{
size_t thingSize = Arena::thingSize(kind);
freeLists[kind] = arena->getFirstFreeSpan();
if (MOZ_UNLIKELY(zone->wasGCStarted()))
zone->runtimeFromAnyThread()->gc.arenaAllocatedDuringGC(zone, arena);
TenuredCell* thing = freeLists[kind]->allocate(thingSize);
MOZ_ASSERT(thing); // This allocation is infallible.
return thing;
}
void
GCRuntime::arenaAllocatedDuringGC(JS::Zone* zone, Arena* arena)
{
if (zone->needsIncrementalBarrier()) {
arena->allocatedDuringIncremental = true;
marker.delayMarkingArena(arena);
} else if (zone->isGCSweeping()) {
arena->setNextAllocDuringSweep(arenasAllocatedDuringSweep);
arenasAllocatedDuringSweep = arena;
}
}
// /////////// Chunk -> Arena Allocator //////////////////////////////////////
bool
GCRuntime::wantBackgroundAllocation(const AutoLockGC& lock) const
{
// To minimize memory waste, we do not want to run the background chunk
// allocation if we already have some empty chunks or when the runtime has
// a small heap size (and therefore likely has a small growth rate).
return allocTask.enabled() &&
emptyChunks(lock).count() < tunables.minEmptyChunkCount(lock) &&
(fullChunks(lock).count() + availableChunks(lock).count()) >= 4;
}
Arena*
GCRuntime::allocateArena(Chunk* chunk, Zone* zone, AllocKind thingKind,
ShouldCheckThresholds checkThresholds, const AutoLockGC& lock)
{
MOZ_ASSERT(chunk->hasAvailableArenas());
// Fail the allocation if we are over our heap size limits.
if (checkThresholds && usage.gcBytes() >= tunables.gcMaxBytes())
return nullptr;
Arena* arena = chunk->allocateArena(rt, zone, thingKind, lock);
zone->usage.addGCArena();
// Trigger an incremental slice if needed.
if (checkThresholds)
maybeAllocTriggerZoneGC(zone, lock);
return arena;
}
Arena*
Chunk::allocateArena(JSRuntime* rt, Zone* zone, AllocKind thingKind, const AutoLockGC& lock)
{
Arena* arena = info.numArenasFreeCommitted > 0
? fetchNextFreeArena(rt)
: fetchNextDecommittedArena();
arena->init(zone, thingKind);
updateChunkListAfterAlloc(rt, lock);
return arena;
}
inline void
GCRuntime::updateOnFreeArenaAlloc(const ChunkInfo& info)
{
MOZ_ASSERT(info.numArenasFreeCommitted <= numArenasFreeCommitted);
--numArenasFreeCommitted;
}
Arena*
Chunk::fetchNextFreeArena(JSRuntime* rt)
{
MOZ_ASSERT(info.numArenasFreeCommitted > 0);
MOZ_ASSERT(info.numArenasFreeCommitted <= info.numArenasFree);
Arena* arena = info.freeArenasHead;
info.freeArenasHead = arena->next;
--info.numArenasFreeCommitted;
--info.numArenasFree;
rt->gc.updateOnFreeArenaAlloc(info);
return arena;
}
Arena*
Chunk::fetchNextDecommittedArena()
{
MOZ_ASSERT(info.numArenasFreeCommitted == 0);
MOZ_ASSERT(info.numArenasFree > 0);
unsigned offset = findDecommittedArenaOffset();
info.lastDecommittedArenaOffset = offset + 1;
--info.numArenasFree;
decommittedArenas.unset(offset);
Arena* arena = &arenas[offset];
MarkPagesInUse(arena, ArenaSize);
arena->setAsNotAllocated();
return arena;
}
/*
* Search for and return the next decommitted Arena. Our goal is to keep
* lastDecommittedArenaOffset "close" to a free arena. We do this by setting
* it to the most recently freed arena when we free, and forcing it to
* the last alloc + 1 when we allocate.
*/
uint32_t
Chunk::findDecommittedArenaOffset()
{
/* Note: lastFreeArenaOffset can be past the end of the list. */
for (unsigned i = info.lastDecommittedArenaOffset; i < ArenasPerChunk; i++) {
if (decommittedArenas.get(i))
return i;
}
for (unsigned i = 0; i < info.lastDecommittedArenaOffset; i++) {
if (decommittedArenas.get(i))
return i;
}
MOZ_CRASH("No decommitted arenas found.");
}
// /////////// System -> Chunk Allocator /////////////////////////////////////
Chunk*
GCRuntime::getOrAllocChunk(const AutoLockGC& lock,
AutoMaybeStartBackgroundAllocation& maybeStartBackgroundAllocation)
{
Chunk* chunk = emptyChunks(lock).pop();
if (!chunk) {
chunk = Chunk::allocate(rt);
if (!chunk)
return nullptr;
MOZ_ASSERT(chunk->info.numArenasFreeCommitted == 0);
}
if (wantBackgroundAllocation(lock))
maybeStartBackgroundAllocation.tryToStartBackgroundAllocation(rt->gc);
return chunk;
}
void
GCRuntime::recycleChunk(Chunk* chunk, const AutoLockGC& lock)
{
emptyChunks(lock).push(chunk);
}
Chunk*
GCRuntime::pickChunk(const AutoLockGC& lock,
AutoMaybeStartBackgroundAllocation& maybeStartBackgroundAllocation)
{
if (availableChunks(lock).count())
return availableChunks(lock).head();
Chunk* chunk = getOrAllocChunk(lock, maybeStartBackgroundAllocation);
if (!chunk)
return nullptr;
chunk->init(rt);
MOZ_ASSERT(chunk->info.numArenasFreeCommitted == 0);
MOZ_ASSERT(chunk->unused());
MOZ_ASSERT(!fullChunks(lock).contains(chunk));
MOZ_ASSERT(!availableChunks(lock).contains(chunk));
chunkAllocationSinceLastGC = true;
availableChunks(lock).push(chunk);
return chunk;
}
BackgroundAllocTask::BackgroundAllocTask(JSRuntime* rt, ChunkPool& pool)
: runtime(rt),
chunkPool_(pool),
enabled_(CanUseExtraThreads() && GetCPUCount() >= 2)
{
}
/* virtual */ void
BackgroundAllocTask::run()
{
TraceLoggerThread* logger = TraceLoggerForCurrentThread();
AutoTraceLog logAllocation(logger, TraceLogger_GCAllocation);
AutoLockGC lock(runtime);
while (!cancel_ && runtime->gc.wantBackgroundAllocation(lock)) {
Chunk* chunk;
{
AutoUnlockGC unlock(lock);
chunk = Chunk::allocate(runtime);
if (!chunk)
break;
chunk->init(runtime);
}
chunkPool_.push(chunk);
}
}
/* static */ Chunk*
Chunk::allocate(JSRuntime* rt)
{
Chunk* chunk = static_cast<Chunk*>(MapAlignedPages(ChunkSize, ChunkSize));
if (!chunk)
return nullptr;
rt->gc.stats.count(gcstats::STAT_NEW_CHUNK);
return chunk;
}
void
Chunk::init(JSRuntime* rt)
{
JS_POISON(this, JS_FRESH_TENURED_PATTERN, ChunkSize);
/*
* We clear the bitmap to guard against JS::GCThingIsMarkedGray being called
* on uninitialized data, which would happen before the first GC cycle.
*/
bitmap.clear();
/*
* Decommit the arenas. We do this after poisoning so that if the OS does
* not have to recycle the pages, we still get the benefit of poisoning.
*/
decommitAllArenas(rt);
/* Initialize the chunk info. */
info.init();
new (&trailer) ChunkTrailer(rt);
/* The rest of info fields are initialized in pickChunk. */
}
void Chunk::decommitAllArenas(JSRuntime* rt)
{
decommittedArenas.clear(true);
MarkPagesUnused(&arenas[0], ArenasPerChunk * ArenaSize);
info.freeArenasHead = nullptr;
info.lastDecommittedArenaOffset = 0;
info.numArenasFree = ArenasPerChunk;
info.numArenasFreeCommitted = 0;
}
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