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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/. */
#include "gc/Marking-inl.h"
#include "mozilla/DebugOnly.h"
#include "mozilla/IntegerRange.h"
#include "mozilla/MathAlgorithms.h"
#include "mozilla/Maybe.h"
#include "mozilla/PodOperations.h"
#include "mozilla/ScopeExit.h"
#include <algorithm>
#include <type_traits>
#include "gc/GCInternals.h"
#include "gc/ParallelMarking.h"
#include "gc/TraceKind.h"
#include "jit/JitCode.h"
#include "js/GCTypeMacros.h" // JS_FOR_EACH_PUBLIC_{,TAGGED_}GC_POINTER_TYPE
#include "js/SliceBudget.h"
#include "util/Poison.h"
#include "vm/GeneratorObject.h"
#include "gc/GC-inl.h"
#include "gc/PrivateIterators-inl.h"
#include "gc/TraceMethods-inl.h"
#include "gc/WeakMap-inl.h"
#include "vm/GeckoProfiler-inl.h"
using namespace js;
using namespace js::gc;
using JS::MapTypeToTraceKind;
using mozilla::DebugOnly;
using mozilla::IntegerRange;
using mozilla::PodCopy;
// [SMDOC] GC Tracing
//
// Tracing Overview
// ================
//
// Tracing, in this context, refers to an abstract visitation of some or all of
// the GC-controlled heap. The effect of tracing an edge of the graph depends
// on the subclass of the JSTracer on whose behalf we are tracing.
//
// Marking
// -------
//
// The primary JSTracer is the GCMarker. The marking tracer causes the target
// of each traversed edge to be marked black and the target edge's children to
// be marked either gray (in the gc algorithm sense) or immediately black.
//
// Callback
// --------
//
// The secondary JSTracer is the CallbackTracer. This simply invokes a callback
// on each edge in a child.
//
// The following is a rough outline of the general struture of the tracing
// internals.
//
/* clang-format off */
//
// +-------------------+ ......................
// | | : :
// | v v +---+---+
// | TraceRoot TraceEdge TraceRange GCMarker:: | |
// | | | | processMarkStackTop | Mark |
// | +-----------------------+ | | Stack |
// | | | | |
// | v | +---+---+
// | TraceEdgeInternal | ^
// | | +<-------------+ :
// | | | | :
// | v v | :
// | CallbackTracer:: markAndTraverseEdge | :
// | onSomeEdge | | :
// | | | | :
// | | | | :
// | +-------------+---------------+ | :
// | | | :
// | v | :
// | markAndTraverse | :
// | | | :
// | | | :
// | traverse | :
// | | | :
// | +--------------------------------------+ | :
// | | | | | :
// | v v v | :
// | markAndTraceChildren markAndPush eagerlyMarkChildren | :
// | | : | | :
// | v : +-----------+ :
// | T::traceChildren : :
// | | : :
// +-------------+ ......................................
//
// Legend:
// ------- Direct calls
// ....... Data flow
//
/* clang-format on */
/*** Tracing Invariants *****************************************************/
template <typename T>
static inline bool IsOwnedByOtherRuntime(JSRuntime* rt, T thing) {
bool other = thing->runtimeFromAnyThread() != rt;
MOZ_ASSERT_IF(other, thing->isPermanentAndMayBeShared());
return other;
}
#ifdef DEBUG
static inline bool IsInFreeList(TenuredCell* cell) {
Arena* arena = cell->arena();
uintptr_t addr = reinterpret_cast<uintptr_t>(cell);
MOZ_ASSERT(Arena::isAligned(addr, arena->getThingSize()));
return arena->inFreeList(addr);
}
template <typename T>
void js::CheckTracedThing(JSTracer* trc, T* thing) {
MOZ_ASSERT(trc);
MOZ_ASSERT(thing);
if (IsForwarded(thing)) {
JS::TracerKind kind = trc->kind();
MOZ_ASSERT(kind == JS::TracerKind::Tenuring ||
kind == JS::TracerKind::MinorSweeping ||
kind == JS::TracerKind::Moving);
thing = Forwarded(thing);
}
/* This function uses data that's not available in the nursery. */
if (IsInsideNursery(thing)) {
return;
}
/*
* Permanent shared things that are not associated with this runtime will be
* ignored during marking.
*/
Zone* zone = thing->zoneFromAnyThread();
if (IsOwnedByOtherRuntime(trc->runtime(), thing)) {
MOZ_ASSERT(!zone->wasGCStarted());
MOZ_ASSERT(thing->isMarkedBlack());
return;
}
JSRuntime* rt = trc->runtime();
MOZ_ASSERT(zone->runtimeFromAnyThread() == rt);
bool isGcMarkingTracer = trc->isMarkingTracer();
bool isUnmarkGrayTracer = IsTracerKind(trc, JS::TracerKind::UnmarkGray);
bool isClearEdgesTracer = IsTracerKind(trc, JS::TracerKind::ClearEdges);
if (TlsContext.get()) {
// If we're on the main thread we must have access to the runtime and zone.
MOZ_ASSERT(CurrentThreadCanAccessRuntime(rt));
MOZ_ASSERT(CurrentThreadCanAccessZone(zone));
} else {
MOZ_ASSERT(isGcMarkingTracer || isUnmarkGrayTracer || isClearEdgesTracer ||
IsTracerKind(trc, JS::TracerKind::Moving) ||
IsTracerKind(trc, JS::TracerKind::Sweeping));
MOZ_ASSERT_IF(!isClearEdgesTracer, CurrentThreadIsPerformingGC());
}
MOZ_ASSERT(thing->isAligned());
MOZ_ASSERT(MapTypeToTraceKind<std::remove_pointer_t<T>>::kind ==
thing->getTraceKind());
/*
* Check that we only mark allocated cells.
*
* This check is restricted to marking for two reasons: Firstly, if background
* sweeping is running and concurrently modifying the free list then it is not
* safe. Secondly, it was thought to be slow so this is a compromise so as to
* not affect test times too much.
*/
MOZ_ASSERT_IF(zone->isGCMarking(), !IsInFreeList(&thing->asTenured()));
}
template <typename T>
void js::CheckTracedThing(JSTracer* trc, const T& thing) {
ApplyGCThingTyped(thing, [trc](auto t) { CheckTracedThing(trc, t); });
}
template <typename T>
static void CheckMarkedThing(GCMarker* gcMarker, T* thing) {
Zone* zone = thing->zoneFromAnyThread();
MOZ_ASSERT(zone->shouldMarkInZone(gcMarker->markColor()));
MOZ_ASSERT_IF(gcMarker->shouldCheckCompartments(),
zone->isCollectingFromAnyThread() || zone->isAtomsZone());
MOZ_ASSERT_IF(gcMarker->markColor() == MarkColor::Gray,
!zone->isGCMarkingBlackOnly() || zone->isAtomsZone());
MOZ_ASSERT(!(zone->isGCSweeping() || zone->isGCFinished() ||
zone->isGCCompacting()));
// Check that we don't stray from the current compartment and zone without
// using TraceCrossCompartmentEdge.
Compartment* comp = thing->maybeCompartment();
MOZ_ASSERT_IF(gcMarker->tracingCompartment && comp,
gcMarker->tracingCompartment == comp);
MOZ_ASSERT_IF(gcMarker->tracingZone,
gcMarker->tracingZone == zone || zone->isAtomsZone());
}
namespace js {
# define IMPL_CHECK_TRACED_THING(_, type, _1, _2) \
template void CheckTracedThing<type>(JSTracer*, type*);
JS_FOR_EACH_TRACEKIND(IMPL_CHECK_TRACED_THING);
# undef IMPL_CHECK_TRACED_THING
template void CheckTracedThing<Value>(JSTracer*, const Value&);
} // namespace js
#endif
static inline bool ShouldMarkCrossCompartment(GCMarker* marker, JSObject* src,
Cell* dstCell) {
MarkColor color = marker->markColor();
if (!dstCell->isTenured()) {
#ifdef DEBUG
// Bug 1743098: This shouldn't be possible but it does seem to happen. Log
// some useful information in debug builds.
if (color != MarkColor::Black) {
fprintf(stderr,
"ShouldMarkCrossCompartment: cross compartment edge from gray "
"object to nursery thing\n");
fprintf(stderr, "src: ");
src->dump();
fprintf(stderr, "dst: ");
dstCell->dump();
}
#endif
MOZ_ASSERT(color == MarkColor::Black);
return false;
}
TenuredCell& dst = dstCell->asTenured();
JS::Zone* dstZone = dst.zone();
if (!src->zone()->isGCMarking() && !dstZone->isGCMarking()) {
return false;
}
if (color == MarkColor::Black) {
// Check our sweep groups are correct: we should never have to
// mark something in a zone that we have started sweeping.
MOZ_ASSERT_IF(!dst.isMarkedBlack(), !dstZone->isGCSweeping());
/*
* Having black->gray edges violates our promise to the cycle collector so
* we ensure that gray things we encounter when marking black end up getting
* marked black.
*
* This can happen for two reasons:
*
* 1) If we're collecting a compartment and it has an edge to an uncollected
* compartment it's possible that the source and destination of the
* cross-compartment edge should be gray, but the source was marked black by
* the write barrier.
*
* 2) If we yield during gray marking and the write barrier marks a gray
* thing black.
*
* We handle the first case before returning whereas the second case happens
* as part of normal marking.
*/
if (dst.isMarkedGray() && !dstZone->isGCMarking()) {
UnmarkGrayGCThingUnchecked(marker,
JS::GCCellPtr(&dst, dst.getTraceKind()));
return false;
}
return dstZone->isGCMarking();
} else {
// Check our sweep groups are correct as above.
MOZ_ASSERT_IF(!dst.isMarkedAny(), !dstZone->isGCSweeping());
if (dstZone->isGCMarkingBlackOnly()) {
/*
* The destination compartment is being not being marked gray now,
* but it will be later, so record the cell so it can be marked gray
* at the appropriate time.
*/
if (!dst.isMarkedAny()) {
DelayCrossCompartmentGrayMarking(marker, src);
}
return false;
}
return dstZone->isGCMarkingBlackAndGray();
}
}
static bool ShouldTraceCrossCompartment(JSTracer* trc, JSObject* src,
Cell* dstCell) {
if (!trc->isMarkingTracer()) {
return true;
}
return ShouldMarkCrossCompartment(GCMarker::fromTracer(trc), src, dstCell);
}
static bool ShouldTraceCrossCompartment(JSTracer* trc, JSObject* src,
const Value& val) {
return val.isGCThing() &&
ShouldTraceCrossCompartment(trc, src, val.toGCThing());
}
#ifdef DEBUG
inline void js::gc::AssertShouldMarkInZone(GCMarker* marker, Cell* thing) {
if (!thing->isMarkedBlack()) {
Zone* zone = thing->zone();
MOZ_ASSERT(zone->isAtomsZone() ||
zone->shouldMarkInZone(marker->markColor()));
}
}
void js::gc::AssertRootMarkingPhase(JSTracer* trc) {
MOZ_ASSERT_IF(trc->isMarkingTracer(),
trc->runtime()->gc.state() == State::NotActive ||
trc->runtime()->gc.state() == State::MarkRoots);
}
#endif // DEBUG
/*** Tracing Interface ******************************************************/
template <typename T>
static void TraceExternalEdgeHelper(JSTracer* trc, T* thingp,
const char* name) {
MOZ_ASSERT(InternalBarrierMethods<T>::isMarkable(*thingp));
TraceEdgeInternal(trc, ConvertToBase(thingp), name);
}
JS_PUBLIC_API void js::UnsafeTraceManuallyBarrieredEdge(JSTracer* trc,
JSObject** thingp,
const char* name) {
TraceEdgeInternal(trc, ConvertToBase(thingp), name);
}
template <typename T>
static void TraceRootHelper(JSTracer* trc, T* thingp, const char* name) {
MOZ_ASSERT(thingp);
js::TraceNullableRoot(trc, thingp, name);
}
namespace js {
class AbstractGeneratorObject;
class SavedFrame;
} // namespace js
#define DEFINE_TRACE_EXTERNAL_EDGE_FUNCTION(type) \
JS_PUBLIC_API void js::gc::TraceExternalEdge(JSTracer* trc, type* thingp, \
const char* name) { \
TraceExternalEdgeHelper(trc, thingp, name); \
}
// Define TraceExternalEdge for each public GC pointer type.
JS_FOR_EACH_PUBLIC_GC_POINTER_TYPE(DEFINE_TRACE_EXTERNAL_EDGE_FUNCTION)
JS_FOR_EACH_PUBLIC_TAGGED_GC_POINTER_TYPE(DEFINE_TRACE_EXTERNAL_EDGE_FUNCTION)
#undef DEFINE_TRACE_EXTERNAL_EDGE_FUNCTION
#define DEFINE_UNSAFE_TRACE_ROOT_FUNCTION(type) \
JS_PUBLIC_API void JS::TraceRoot(JSTracer* trc, type* thingp, \
const char* name) { \
TraceRootHelper(trc, thingp, name); \
}
// Define TraceRoot for each public GC pointer type.
JS_FOR_EACH_PUBLIC_GC_POINTER_TYPE(DEFINE_UNSAFE_TRACE_ROOT_FUNCTION)
JS_FOR_EACH_PUBLIC_TAGGED_GC_POINTER_TYPE(DEFINE_UNSAFE_TRACE_ROOT_FUNCTION)
// Also, for the moment, define TraceRoot for internal GC pointer types.
DEFINE_UNSAFE_TRACE_ROOT_FUNCTION(AbstractGeneratorObject*)
DEFINE_UNSAFE_TRACE_ROOT_FUNCTION(SavedFrame*)
#undef DEFINE_UNSAFE_TRACE_ROOT_FUNCTION
namespace js {
namespace gc {
#define INSTANTIATE_INTERNAL_TRACE_FUNCTIONS(type) \
template void TraceRangeInternal<type>(JSTracer*, size_t len, type*, \
const char*);
#define INSTANTIATE_INTERNAL_TRACE_FUNCTIONS_FROM_TRACEKIND(_1, type, _2, _3) \
INSTANTIATE_INTERNAL_TRACE_FUNCTIONS(type*)
JS_FOR_EACH_TRACEKIND(INSTANTIATE_INTERNAL_TRACE_FUNCTIONS_FROM_TRACEKIND)
JS_FOR_EACH_PUBLIC_TAGGED_GC_POINTER_TYPE(INSTANTIATE_INTERNAL_TRACE_FUNCTIONS)
INSTANTIATE_INTERNAL_TRACE_FUNCTIONS(TaggedProto)
#undef INSTANTIATE_INTERNAL_TRACE_FUNCTIONS_FROM_TRACEKIND
#undef INSTANTIATE_INTERNAL_TRACE_FUNCTIONS
} // namespace gc
} // namespace js
// In debug builds, makes a note of the current compartment before calling a
// trace hook or traceChildren() method on a GC thing.
class MOZ_RAII AutoSetTracingSource {
#ifndef DEBUG
public:
template <typename T>
AutoSetTracingSource(JSTracer* trc, T* thing) {}
~AutoSetTracingSource() {}
#else
GCMarker* marker = nullptr;
public:
template <typename T>
AutoSetTracingSource(JSTracer* trc, T* thing) {
if (trc->isMarkingTracer() && thing) {
marker = GCMarker::fromTracer(trc);
MOZ_ASSERT(!marker->tracingZone);
marker->tracingZone = thing->asTenured().zone();
MOZ_ASSERT(!marker->tracingCompartment);
marker->tracingCompartment = thing->maybeCompartment();
}
}
~AutoSetTracingSource() {
if (marker) {
marker->tracingZone = nullptr;
marker->tracingCompartment = nullptr;
}
}
#endif
};
// In debug builds, clear the trace hook compartment. This happens after the
// trace hook has called back into one of our trace APIs and we've checked the
// traced thing.
class MOZ_RAII AutoClearTracingSource {
#ifndef DEBUG
public:
explicit AutoClearTracingSource(GCMarker* marker) {}
explicit AutoClearTracingSource(JSTracer* trc) {}
~AutoClearTracingSource() {}
#else
GCMarker* marker = nullptr;
JS::Zone* prevZone = nullptr;
Compartment* prevCompartment = nullptr;
public:
explicit AutoClearTracingSource(JSTracer* trc) {
if (trc->isMarkingTracer()) {
marker = GCMarker::fromTracer(trc);
prevZone = marker->tracingZone;
marker->tracingZone = nullptr;
prevCompartment = marker->tracingCompartment;
marker->tracingCompartment = nullptr;
}
}
~AutoClearTracingSource() {
if (marker) {
marker->tracingZone = prevZone;
marker->tracingCompartment = prevCompartment;
}
}
#endif
};
template <typename T>
void js::TraceManuallyBarrieredCrossCompartmentEdge(JSTracer* trc,
JSObject* src, T* dst,
const char* name) {
// Clear expected compartment for cross-compartment edge.
AutoClearTracingSource acts(trc);
if (ShouldTraceCrossCompartment(trc, src, *dst)) {
TraceEdgeInternal(trc, dst, name);
}
}
template void js::TraceManuallyBarrieredCrossCompartmentEdge<Value>(
JSTracer*, JSObject*, Value*, const char*);
template void js::TraceManuallyBarrieredCrossCompartmentEdge<JSObject*>(
JSTracer*, JSObject*, JSObject**, const char*);
template void js::TraceManuallyBarrieredCrossCompartmentEdge<BaseScript*>(
JSTracer*, JSObject*, BaseScript**, const char*);
template <typename T>
void js::TraceSameZoneCrossCompartmentEdge(JSTracer* trc,
const WriteBarriered<T>* dst,
const char* name) {
#ifdef DEBUG
if (trc->isMarkingTracer()) {
MOZ_ASSERT((*dst)->maybeCompartment(),
"Use TraceEdge for GC things without a compartment");
GCMarker* gcMarker = GCMarker::fromTracer(trc);
MOZ_ASSERT_IF(gcMarker->tracingZone,
(*dst)->zone() == gcMarker->tracingZone);
}
// Skip compartment checks for this edge.
if (trc->kind() == JS::TracerKind::CompartmentCheck) {
return;
}
#endif
// Clear expected compartment for cross-compartment edge.
AutoClearTracingSource acts(trc);
TraceEdgeInternal(trc, ConvertToBase(dst->unbarrieredAddress()), name);
}
template void js::TraceSameZoneCrossCompartmentEdge(
JSTracer*, const WriteBarriered<Shape*>*, const char*);
template <typename T>
void js::TraceWeakMapKeyEdgeInternal(JSTracer* trc, Zone* weakMapZone,
T** thingp, const char* name) {
// We can't use ShouldTraceCrossCompartment here because that assumes the
// source of the edge is a CCW object which could be used to delay gray
// marking. Instead, assert that the weak map zone is in the same marking
// state as the target thing's zone and therefore we can go ahead and mark it.
#ifdef DEBUG
auto thing = *thingp;
if (trc->isMarkingTracer()) {
MOZ_ASSERT(weakMapZone->isGCMarking());
MOZ_ASSERT(weakMapZone->gcState() == thing->zone()->gcState());
}
#endif
// Clear expected compartment for cross-compartment edge.
AutoClearTracingSource acts(trc);
TraceEdgeInternal(trc, thingp, name);
}
template void js::TraceWeakMapKeyEdgeInternal<JSObject>(JSTracer*, Zone*,
JSObject**,
const char*);
template void js::TraceWeakMapKeyEdgeInternal<BaseScript>(JSTracer*, Zone*,
BaseScript**,
const char*);
static Cell* TraceGenericPointerRootAndType(JSTracer* trc, Cell* thing,
JS::TraceKind kind,
const char* name) {
return MapGCThingTyped(thing, kind, [trc, name](auto t) -> Cell* {
TraceRoot(trc, &t, name);
return t;
});
}
void js::TraceGenericPointerRoot(JSTracer* trc, Cell** thingp,
const char* name) {
MOZ_ASSERT(thingp);
Cell* thing = *thingp;
if (!thing) {
return;
}
Cell* traced =
TraceGenericPointerRootAndType(trc, thing, thing->getTraceKind(), name);
if (traced != thing) {
*thingp = traced;
}
}
void js::TraceManuallyBarrieredGenericPointerEdge(JSTracer* trc, Cell** thingp,
const char* name) {
MOZ_ASSERT(thingp);
Cell* thing = *thingp;
if (!*thingp) {
return;
}
auto traced = MapGCThingTyped(thing, thing->getTraceKind(),
[trc, name](auto t) -> Cell* {
TraceManuallyBarrieredEdge(trc, &t, name);
return t;
});
if (traced != thing) {
*thingp = traced;
}
}
void js::TraceGCCellPtrRoot(JSTracer* trc, JS::GCCellPtr* thingp,
const char* name) {
Cell* thing = thingp->asCell();
if (!thing) {
return;
}
Cell* traced =
TraceGenericPointerRootAndType(trc, thing, thingp->kind(), name);
if (!traced) {
*thingp = JS::GCCellPtr();
} else if (traced != thingp->asCell()) {
*thingp = JS::GCCellPtr(traced, thingp->kind());
}
}
void js::TraceManuallyBarrieredGCCellPtr(JSTracer* trc, JS::GCCellPtr* thingp,
const char* name) {
Cell* thing = thingp->asCell();
if (!thing) {
return;
}
Cell* traced = MapGCThingTyped(thing, thing->getTraceKind(),
[trc, name](auto t) -> Cell* {
TraceManuallyBarrieredEdge(trc, &t, name);
return t;
});
if (!traced) {
// If we are clearing edges, also erase the type. This happens when using
// ClearEdgesTracer.
*thingp = JS::GCCellPtr();
} else if (traced != thingp->asCell()) {
*thingp = JS::GCCellPtr(traced, thingp->kind());
}
}
template <typename T>
inline bool TraceTaggedPtrEdge(JSTracer* trc, T* thingp, const char* name) {
// Return true by default. For some types the lambda below won't be called.
bool ret = true;
auto thing = MapGCThingTyped(*thingp, [&](auto thing) {
if (!TraceEdgeInternal(trc, &thing, name)) {
ret = false;
return TaggedPtr<T>::empty();
}
return TaggedPtr<T>::wrap(thing);
});
// Only update *thingp if the value changed, to avoid TSan false positives for
// template objects when using DumpHeapTracer or UbiNode tracers while Ion
// compiling off-thread.
if (thing.isSome() && thing.value() != *thingp) {
*thingp = thing.value();
}
return ret;
}
bool js::gc::TraceEdgeInternal(JSTracer* trc, Value* thingp, const char* name) {
return TraceTaggedPtrEdge(trc, thingp, name);
}
bool js::gc::TraceEdgeInternal(JSTracer* trc, jsid* thingp, const char* name) {
return TraceTaggedPtrEdge(trc, thingp, name);
}
bool js::gc::TraceEdgeInternal(JSTracer* trc, TaggedProto* thingp,
const char* name) {
return TraceTaggedPtrEdge(trc, thingp, name);
}
template <typename T>
void js::gc::TraceRangeInternal(JSTracer* trc, size_t len, T* vec,
const char* name) {
JS::AutoTracingIndex index(trc);
for (auto i : IntegerRange(len)) {
if (InternalBarrierMethods<T>::isMarkable(vec[i])) {
TraceEdgeInternal(trc, &vec[i], name);
}
++index;
}
}
/*** GC Marking Interface ***************************************************/
namespace js {
using HasNoImplicitEdgesType = bool;
template <typename T>
struct ImplicitEdgeHolderType {
using Type = HasNoImplicitEdgesType;
};
// For now, we only handle JSObject* and BaseScript* keys, but the linear time
// algorithm can be easily extended by adding in more types here, then making
// GCMarker::traverse<T> call markImplicitEdges.
template <>
struct ImplicitEdgeHolderType<JSObject*> {
using Type = JSObject*;
};
template <>
struct ImplicitEdgeHolderType<BaseScript*> {
using Type = BaseScript*;
};
void GCMarker::markEphemeronEdges(EphemeronEdgeVector& edges,
gc::CellColor srcColor) {
// This is called as part of GC weak marking or by barriers outside of GC.
MOZ_ASSERT_IF(CurrentThreadIsPerformingGC(),
state == MarkingState::WeakMarking);
DebugOnly<size_t> initialLength = edges.length();
for (auto& edge : edges) {
CellColor targetColor = std::min(srcColor, edge.color);
MOZ_ASSERT(CellColor(markColor()) >= targetColor);
if (targetColor == markColor()) {
ApplyGCThingTyped(
edge.target, edge.target->getTraceKind(),
[this](auto t) { markAndTraverse<NormalMarkingOptions>(t); });
}
}
// The above marking always goes through markAndPush, which will not cause
// 'edges' to be appended to while iterating.
MOZ_ASSERT(edges.length() == initialLength);
// This is not just an optimization. When nuking a CCW, we conservatively
// mark through the related edges and then lose the CCW->target connection
// that induces a sweep group edge. As a result, it is possible for the
// delegate zone to get marked later, look up an edge in this table, and
// then try to mark something in a Zone that is no longer marking.
if (srcColor == CellColor::Black && markColor() == MarkColor::Black) {
edges.eraseIf([](auto& edge) { return edge.color == MarkColor::Black; });
}
}
// 'delegate' is no longer the delegate of 'key'.
void GCMarker::severWeakDelegate(JSObject* key, JSObject* delegate) {
MOZ_ASSERT(CurrentThreadIsMainThread());
JS::Zone* zone = delegate->zone();
if (!zone->needsIncrementalBarrier()) {
MOZ_ASSERT(
!zone->gcEphemeronEdges(delegate).get(delegate),
"non-collecting zone should not have populated gcEphemeronEdges");
return;
}
auto* p = zone->gcEphemeronEdges(delegate).get(delegate);
if (!p) {
return;
}
// We are losing 3 edges here: key -> delegate, delegate -> key, and
// <delegate, map> -> value. Maintain snapshot-at-beginning (hereafter,
// S-A-B) by conservatively assuming the delegate will end up black and
// marking through the latter 2 edges.
//
// Note that this does not fully give S-A-B:
//
// 1. If the map is gray, then the value will only be marked gray here even
// though the map could later be discovered to be black.
//
// 2. If the map has not yet been marked, we won't have any entries to mark
// here in the first place.
//
// 3. We're not marking the delegate, since that would cause eg nukeAllCCWs
// to keep everything alive for another collection.
//
// We can't even assume that the delegate passed in here is live, because we
// could have gotten here from nukeAllCCWs, which iterates over all CCWs
// including dead ones.
//
// This is ok because S-A-B is only needed to prevent the case where an
// unmarked object is removed from the graph and then re-inserted where it is
// reachable only by things that have already been marked. None of the 3
// target objects will be re-inserted anywhere as a result of this action.
EphemeronEdgeVector& edges = p->value;
MOZ_ASSERT(markColor() == MarkColor::Black);
markEphemeronEdges(edges, MarkColor::Black);
}
// 'delegate' is now the delegate of 'key'. Update weakmap marking state.
void GCMarker::restoreWeakDelegate(JSObject* key, JSObject* delegate) {
MOZ_ASSERT(CurrentThreadIsMainThread());
if (!key->zone()->needsIncrementalBarrier()) {
// Temporary diagnostic printouts for when this would have asserted.
if (key->zone()->gcEphemeronEdges(key).has(key)) {
fprintf(stderr, "key zone: %d\n", int(key->zone()->gcState()));
#ifdef DEBUG
key->dump();
#endif
fprintf(stderr, "delegate zone: %d\n", int(delegate->zone()->gcState()));
#ifdef DEBUG
delegate->dump();
#endif
}
MOZ_ASSERT(
!key->zone()->gcEphemeronEdges(key).has(key),
"non-collecting zone should not have populated gcEphemeronEdges");
return;
}
if (!delegate->zone()->needsIncrementalBarrier()) {
// Normally we should not have added the key -> value edge if the delegate
// zone is not marking (because the delegate would have been seen as black,
// so we would mark the key immediately instead). But if there wasn't a
// delegate (the key was nuked), then we won't have consulted it. So we
// can't do the same assertion as above.
//
// Specifically, the sequence would be:
// 1. Nuke the key.
// 2. Start the incremental GC.
// 3. Mark the WeakMap. Insert a key->value edge with a DeadObjectProxy key.
// 4. Un-nuke the key with a delegate in a nonmarking Zone.
//
// The result is an ephemeron edge (from <map,key> to value, but stored
// as key to value) involving a key with a delegate in a nonmarking Zone,
// something that ordinarily would not happen.
return;
}
auto* p = key->zone()->gcEphemeronEdges(key).get(key);
if (!p) {
return;
}
// Similar to severWeakDelegate above, mark through the key -> value edge.
EphemeronEdgeVector& edges = p->value;
MOZ_ASSERT(markColor() == MarkColor::Black);
markEphemeronEdges(edges, MarkColor::Black);
}
template <typename T>
void GCMarker::markImplicitEdgesHelper(T markedThing) {
if (!isWeakMarking()) {
return;
}
Zone* zone = markedThing->asTenured().zone();
MOZ_ASSERT(zone->isGCMarking());
MOZ_ASSERT(!zone->isGCSweeping());
auto p = zone->gcEphemeronEdges().get(markedThing);
if (!p) {
return;
}
EphemeronEdgeVector& edges = p->value;
// markedThing might be a key in a debugger weakmap, which can end up marking
// values that are in a different compartment.
AutoClearTracingSource acts(tracer());
CellColor thingColor = gc::detail::GetEffectiveColor(this, markedThing);
markEphemeronEdges(edges, thingColor);
}
template <>
void GCMarker::markImplicitEdgesHelper(HasNoImplicitEdgesType) {}
template <typename T>
void GCMarker::markImplicitEdges(T* thing) {
markImplicitEdgesHelper<typename ImplicitEdgeHolderType<T*>::Type>(thing);
}
template void GCMarker::markImplicitEdges(JSObject*);
template void GCMarker::markImplicitEdges(BaseScript*);
} // namespace js
template <typename T>
static inline bool ShouldMark(GCMarker* gcmarker, T* thing) {
// We may encounter nursery things during normal marking since we don't
// collect the nursery at the start of every GC slice.
if (!thing->isTenured()) {
return false;
}
// Don't mark things outside a zone if we are in a per-zone GC. Don't mark
// permanent shared things owned by other runtimes (we will never observe
// their zone being collected).
Zone* zone = thing->asTenured().zoneFromAnyThread();
return zone->shouldMarkInZone(gcmarker->markColor());
}
template <uint32_t opts>
MarkingTracerT<opts>::MarkingTracerT(JSRuntime* runtime, GCMarker* marker)
: GenericTracerImpl<MarkingTracerT<opts>>(
runtime, JS::TracerKind::Marking,
JS::TraceOptions(JS::WeakMapTraceAction::Expand,
JS::WeakEdgeTraceAction::Skip)) {
// Marking tracers are owned by (and part of) a GCMarker.
MOZ_ASSERT(this == marker->tracer());
MOZ_ASSERT(getMarker() == marker);
}
template <uint32_t opts>
MOZ_ALWAYS_INLINE GCMarker* MarkingTracerT<opts>::getMarker() {
return GCMarker::fromTracer(this);
}
template <uint32_t opts>
template <typename T>
void MarkingTracerT<opts>::onEdge(T** thingp, const char* name) {
T* thing = *thingp;
// Do per-type marking precondition checks.
GCMarker* marker = getMarker();
if (!ShouldMark(marker, thing)) {
MOZ_ASSERT(gc::detail::GetEffectiveColor(marker, thing) ==
js::gc::CellColor::Black);
return;
}
MOZ_ASSERT(!IsOwnedByOtherRuntime(this->runtime(), thing));
#ifdef DEBUG
CheckMarkedThing(marker, thing);
#endif
AutoClearTracingSource acts(this);
marker->markAndTraverse<opts>(thing);
}
#define INSTANTIATE_ONEDGE_METHOD(name, type, _1, _2) \
template void MarkingTracerT<NormalMarkingOptions>::onEdge<type>( \
type * *thingp, const char* name); \
template void \
MarkingTracerT<MarkingOptions::MarkRootCompartments>::onEdge<type>( \
type * *thingp, const char* name);
JS_FOR_EACH_TRACEKIND(INSTANTIATE_ONEDGE_METHOD)
#undef INSTANTIATE_ONEDGE_METHOD
static void TraceEdgeForBarrier(GCMarker* gcmarker, TenuredCell* thing,
JS::TraceKind kind) {
// Dispatch to markAndTraverse without checking ShouldMark.
ApplyGCThingTyped(thing, kind, [gcmarker](auto thing) {
MOZ_ASSERT(ShouldMark(gcmarker, thing));
CheckTracedThing(gcmarker->tracer(), thing);
AutoClearTracingSource acts(gcmarker->tracer());
gcmarker->markAndTraverse<NormalMarkingOptions>(thing);
});
}
JS_PUBLIC_API void js::gc::PerformIncrementalReadBarrier(JS::GCCellPtr thing) {
// Optimized marking for read barriers. This is called from
// ExposeGCThingToActiveJS which has already checked the prerequisites for
// performing a read barrier. This means we can skip a bunch of checks and
// call into the tracer directly.
MOZ_ASSERT(thing);
MOZ_ASSERT(!JS::RuntimeHeapIsCollecting());
TenuredCell* cell = &thing.asCell()->asTenured();
MOZ_ASSERT(!cell->isMarkedBlack());
Zone* zone = cell->zone();
MOZ_ASSERT(zone->needsIncrementalBarrier());
// Skip dispatching on known tracer type.
GCMarker* gcmarker = GCMarker::fromTracer(zone->barrierTracer());
TraceEdgeForBarrier(gcmarker, cell, thing.kind());
}
void js::gc::PerformIncrementalReadBarrier(TenuredCell* cell) {
// Internal version of previous function.
MOZ_ASSERT(cell);
MOZ_ASSERT(!JS::RuntimeHeapIsCollecting());
if (cell->isMarkedBlack()) {
return;
}
Zone* zone = cell->zone();
MOZ_ASSERT(zone->needsIncrementalBarrier());
// Skip dispatching on known tracer type.
GCMarker* gcmarker = GCMarker::fromTracer(zone->barrierTracer());
TraceEdgeForBarrier(gcmarker, cell, cell->getTraceKind());
}
void js::gc::PerformIncrementalPreWriteBarrier(TenuredCell* cell) {
// The same as PerformIncrementalReadBarrier except for an extra check on the
// runtime for cells in atoms zone.
Zone* zone = cell->zoneFromAnyThread();
MOZ_ASSERT(zone->needsIncrementalBarrier());
MOZ_ASSERT(cell);
if (cell->isMarkedBlack()) {
return;
}
// Barriers can be triggered off the main thread by background finalization of
// HeapPtrs to the atoms zone. We don't want to trigger the barrier in this
// case.
bool checkThread = zone->isAtomsZone();
JSRuntime* runtime = cell->runtimeFromAnyThread();
if (checkThread && !CurrentThreadCanAccessRuntime(runtime)) {
MOZ_ASSERT(CurrentThreadIsGCFinalizing());
return;
}
MOZ_ASSERT(CurrentThreadIsMainThread());
MOZ_ASSERT(!JS::RuntimeHeapIsMajorCollecting());
// Skip dispatching on known tracer type.
GCMarker* gcmarker = GCMarker::fromTracer(zone->barrierTracer());
TraceEdgeForBarrier(gcmarker, cell, cell->getTraceKind());
}
void js::gc::PerformIncrementalBarrierDuringFlattening(JSString* str) {
TenuredCell* cell = &str->asTenured();
// Skip eager marking of ropes during flattening. Their children will also be
// barriered by flattening process so we don't need to traverse them.
if (str->isRope()) {
cell->markBlack();
return;
}
PerformIncrementalPreWriteBarrier(cell);
}
template <uint32_t opts, typename T>
void js::GCMarker::markAndTraverse(T* thing) {
if (mark<opts>(thing)) {
// We only mark permanent things during initialization.
MOZ_ASSERT_IF(thing->isPermanentAndMayBeShared(),
!runtime()->permanentAtomsPopulated());
// We don't need to pass MarkRootCompartments options on to children.
constexpr uint32_t traverseOpts =
opts & ~MarkingOptions::MarkRootCompartments;
traverse<traverseOpts>(thing);
if constexpr (bool(opts & MarkingOptions::MarkRootCompartments)) {
// Mark the compartment as live.
SetCompartmentHasMarkedCells(thing);
}
}
}
// The |traverse| method overloads select the traversal strategy for each kind.
//
// There are three possible strategies:
//
// 1. traceChildren
//
// The simplest traversal calls out to the fully generic traceChildren
// function to visit the child edges. In the absence of other traversal
// mechanisms, this function will rapidly grow the stack past its bounds and
// crash the process. Thus, this generic tracing should only be used in cases
// where subsequent tracing will not recurse.
//
// 2. scanChildren
//
// Strings, Shapes, and Scopes are extremely common, but have simple patterns
// of recursion. We traverse trees of these edges immediately, with
// aggressive, manual inlining, implemented by eagerlyTraceChildren.
//
// 3. pushThing
//
// Objects are extremely common and can contain arbitrarily nested graphs, so
// are not trivially inlined. In this case we use the mark stack to control
// recursion. JitCode shares none of these properties, but is included for
// historical reasons. JSScript normally cannot recurse, but may be used as a
// weakmap key and thereby recurse into weakmapped values.
template <uint32_t opts>
void GCMarker::traverse(BaseShape* thing) {
traceChildren<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(GetterSetter* thing) {
traceChildren<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(JS::Symbol* thing) {
traceChildren<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(JS::BigInt* thing) {
traceChildren<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(RegExpShared* thing) {
traceChildren<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(JSString* thing) {
scanChildren<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(Shape* thing) {
scanChildren<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(PropMap* thing) {
scanChildren<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(js::Scope* thing) {
scanChildren<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(JSObject* thing) {
pushThing<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(jit::JitCode* thing) {
pushThing<opts>(thing);
}
template <uint32_t opts>
void GCMarker::traverse(BaseScript* thing) {
pushThing<opts>(thing);
}
template <uint32_t opts, typename T>
void js::GCMarker::traceChildren(T* thing) {
MOZ_ASSERT(!thing->isPermanentAndMayBeShared());
MOZ_ASSERT(thing->isMarkedAny());
AutoSetTracingSource asts(tracer(), thing);
thing->traceChildren(tracer());
}
template <uint32_t opts, typename T>
void js::GCMarker::scanChildren(T* thing) {
MOZ_ASSERT(!thing->isPermanentAndMayBeShared());
MOZ_ASSERT(thing->isMarkedAny());
eagerlyMarkChildren<opts>(thing);
}
template <uint32_t opts, typename T>
void js::GCMarker::pushThing(T* thing) {
MOZ_ASSERT(!thing->isPermanentAndMayBeShared());
MOZ_ASSERT(thing->isMarkedAny());
pushTaggedPtr(thing);
}
template void js::GCMarker::markAndTraverse<NormalMarkingOptions, JSObject>(
JSObject* thing);
template void js::GCMarker::markAndTraverse<
MarkingOptions::MarkRootCompartments, JSObject>(JSObject* thing);
#ifdef DEBUG
void GCMarker::setCheckAtomMarking(bool check) {
MOZ_ASSERT(check != checkAtomMarking);
checkAtomMarking = check;
}
#endif
template <typename S, typename T>
inline void GCMarker::checkTraversedEdge(S source, T* target) {
#ifdef DEBUG
// Atoms and Symbols do not have or mark their internal pointers,
// respectively.
MOZ_ASSERT(!source->isPermanentAndMayBeShared());
// Shared things are already black so we will not mark them.
if (target->isPermanentAndMayBeShared()) {
Zone* zone = target->zoneFromAnyThread();
MOZ_ASSERT(!zone->wasGCStarted());
MOZ_ASSERT(!zone->needsIncrementalBarrier());
MOZ_ASSERT(target->isMarkedBlack());
MOZ_ASSERT(!target->maybeCompartment());
return;
}
Zone* sourceZone = source->zone();
Zone* targetZone = target->zone();
// Atoms and Symbols do not have access to a compartment pointer, or we'd need
// to adjust the subsequent check to catch that case.
MOZ_ASSERT_IF(targetZone->isAtomsZone(), !target->maybeCompartment());
// The Zones must match, unless the target is an atom.
MOZ_ASSERT(targetZone == sourceZone || targetZone->isAtomsZone());
// If we are marking an atom, that atom must be marked in the source zone's
// atom bitmap.
if (checkAtomMarking && !sourceZone->isAtomsZone() &&
targetZone->isAtomsZone()) {
MOZ_ASSERT(target->runtimeFromAnyThread()->gc.atomMarking.atomIsMarked(
sourceZone, reinterpret_cast<TenuredCell*>(target)));
}
// If we have access to a compartment pointer for both things, they must
// match.
MOZ_ASSERT_IF(source->maybeCompartment() && target->maybeCompartment(),
source->maybeCompartment() == target->maybeCompartment());
#endif
}
template <uint32_t opts, typename S, typename T>
void js::GCMarker::markAndTraverseEdge(S source, T* target) {
checkTraversedEdge(source, target);
markAndTraverse<opts>(target);
}
template <uint32_t opts, typename S, typename T>
void js::GCMarker::markAndTraverseEdge(S source, const T& thing) {
ApplyGCThingTyped(thing, [this, source](auto t) {
this->markAndTraverseEdge<opts>(source, t);
});
}
template <uint32_t opts, typename T>
bool js::GCMarker::mark(T* thing) {
if (!thing->isTenured()) {
return false;
}
AssertShouldMarkInZone(this, thing);
MarkColor color =
TraceKindCanBeGray<T>::value ? markColor() : MarkColor::Black;
if constexpr (bool(opts & MarkingOptions::ParallelMarking)) {
return thing->asTenured().markIfUnmarkedAtomic(color);
}
return thing->asTenured().markIfUnmarked(color);
}
/*** Mark-stack Marking *****************************************************/
// Call the trace hook set on the object, if present.
static inline void CallTraceHook(JSTracer* trc, JSObject* obj) {
const JSClass* clasp = obj->getClass();
MOZ_ASSERT(clasp);
if (clasp->hasTrace()) {
AutoSetTracingSource asts(trc, obj);
clasp->doTrace(trc, obj);
}
}
static gcstats::PhaseKind GrayMarkingPhaseForCurrentPhase(
const gcstats::Statistics& stats) {
using namespace gcstats;
switch (stats.currentPhaseKind()) {
case PhaseKind::MARK:
return PhaseKind::MARK_GRAY;
case PhaseKind::MARK_WEAK:
return PhaseKind::MARK_GRAY_WEAK;
default:
MOZ_CRASH("Unexpected current phase");
}
}
void GCMarker::moveWork(GCMarker* dst, GCMarker* src) {
MOZ_ASSERT(dst->stack.isEmpty());
MOZ_ASSERT(src->canDonateWork());
MarkStack::moveWork(dst->stack, src->stack);
}
bool GCMarker::markUntilBudgetExhausted(SliceBudget& budget,
ShouldReportMarkTime reportTime) {
#ifdef DEBUG
MOZ_ASSERT(!strictCompartmentChecking);
strictCompartmentChecking = true;
auto acc = mozilla::MakeScopeExit([&] { strictCompartmentChecking = false; });
#endif
if (budget.isOverBudget()) {
return false;
}
return doMarking<NormalMarkingOptions>(budget, reportTime);
}
template <uint32_t opts>
bool GCMarker::doMarking(SliceBudget& budget, ShouldReportMarkTime reportTime) {
GCRuntime& gc = runtime()->gc;
// This method leaves the mark color as it found it.
if (hasBlackEntries() && !markOneColor<opts, MarkColor::Black>(budget)) {
return false;
}
if (hasGrayEntries()) {
mozilla::Maybe<gcstats::AutoPhase> ap;
if (reportTime) {
auto& stats = runtime()->gc.stats();
ap.emplace(stats, GrayMarkingPhaseForCurrentPhase(stats));
}
if (!markOneColor<opts, MarkColor::Gray>(budget)) {
return false;
}
}
// Mark children of things that caused too deep recursion during the above
// tracing. All normal marking happens before any delayed marking.
if (gc.hasDelayedMarking()) {
gc.markAllDelayedChildren(reportTime);
}
MOZ_ASSERT(!gc.hasDelayedMarking());
MOZ_ASSERT(isDrained());
return true;
}
class MOZ_RAII gc::AutoUpdateMarkStackRanges {
GCMarker& marker_;
public:
explicit AutoUpdateMarkStackRanges(GCMarker& marker) : marker_(marker) {
marker_.updateRangesAtStartOfSlice();
}
~AutoUpdateMarkStackRanges() { marker_.updateRangesAtEndOfSlice(); }
};
template <uint32_t opts, MarkColor color>
bool GCMarker::markOneColor(SliceBudget& budget) {
AutoSetMarkColor setColor(*this, color);
AutoUpdateMarkStackRanges updateRanges(*this);
while (processMarkStackTop<opts>(budget)) {
if (stack.isEmpty()) {
return true;
}
}
return false;
}
bool GCMarker::markCurrentColorInParallel(SliceBudget& budget) {
AutoUpdateMarkStackRanges updateRanges(*this);
ParallelMarker::AtomicCount& waitingTaskCount =
parallelMarker_->waitingTaskCountRef();
while (processMarkStackTop<MarkingOptions::ParallelMarking>(budget)) {
if (stack.isEmpty()) {
return true;
}
// TODO: It might be better to only check this occasionally, possibly
// combined with the slice budget check. Experiments with giving this its
// own counter resulted in worse performance.
if (waitingTaskCount && canDonateWork()) {
parallelMarker_->donateWorkFrom(this);
}
}
return false;
}
#ifdef DEBUG
bool GCMarker::markOneObjectForTest(JSObject* obj) {
MOZ_ASSERT(obj->zone()->isGCMarking());
MOZ_ASSERT(!obj->isMarked(markColor()));
size_t oldPosition = stack.position();
markAndTraverse<NormalMarkingOptions>(obj);
if (stack.position() == oldPosition) {
return false;
}
AutoUpdateMarkStackRanges updateRanges(*this);
SliceBudget unlimited = SliceBudget::unlimited();
processMarkStackTop<NormalMarkingOptions>(unlimited);
return true;
}
#endif
static inline void CheckForCompartmentMismatch(JSObject* obj, JSObject* obj2) {
#ifdef DEBUG
if (MOZ_UNLIKELY(obj->compartment() != obj2->compartment())) {
fprintf(
stderr,
"Compartment mismatch in pointer from %s object slot to %s object\n",
obj->getClass()->name, obj2->getClass()->name);
MOZ_CRASH("Compartment mismatch");
}
#endif
}
static inline size_t NumUsedFixedSlots(NativeObject* obj) {
return std::min(obj->numFixedSlots(), obj->slotSpan());
}
static inline size_t NumUsedDynamicSlots(NativeObject* obj) {
size_t nfixed = obj->numFixedSlots();
size_t nslots = obj->slotSpan();
if (nslots < nfixed) {
return 0;
}
return nslots - nfixed;
}
void GCMarker::updateRangesAtStartOfSlice() {
for (MarkStackIter iter(stack); !iter.done(); iter.next()) {
if (iter.isSlotsOrElementsRange()) {
MarkStack::SlotsOrElementsRange& range = iter.slotsOrElementsRange();
JSObject* obj = range.ptr().asRangeObject();
if (!obj->is<NativeObject>()) {
range.setEmpty();
} else if (range.kind() == SlotsOrElementsKind::Elements) {
NativeObject* obj = &range.ptr().asRangeObject()->as<NativeObject>();
size_t index = range.start();
size_t numShifted = obj->getElementsHeader()->numShiftedElements();
index -= std::min(numShifted, index);
range.setStart(index);
}
}
}
#ifdef DEBUG
MOZ_ASSERT(!stack.elementsRangesAreValid);
stack.elementsRangesAreValid = true;
#endif
}
void GCMarker::updateRangesAtEndOfSlice() {
for (MarkStackIter iter(stack); !iter.done(); iter.next()) {
if (iter.isSlotsOrElementsRange()) {
MarkStack::SlotsOrElementsRange& range = iter.slotsOrElementsRange();
if (range.kind() == SlotsOrElementsKind::Elements) {
NativeObject* obj = &range.ptr().asRangeObject()->as<NativeObject>();
size_t numShifted = obj->getElementsHeader()->numShiftedElements();
range.setStart(range.start() + numShifted);
}
}
}
#ifdef DEBUG
MOZ_ASSERT(stack.elementsRangesAreValid);
stack.elementsRangesAreValid = false;
#endif
}
template <uint32_t opts>
inline bool GCMarker::processMarkStackTop(SliceBudget& budget) {
/*
* This function uses explicit goto and scans objects directly. This allows us
* to eliminate tail recursion and significantly improve the marking
* performance, see bug 641025.
*
* Note that the mutator can change the size and layout of objects between
* marking slices, so we must check slots and element ranges read from the
* stack.
*/
MOZ_ASSERT(!stack.isEmpty());
MOZ_ASSERT(stack.elementsRangesAreValid);
MOZ_ASSERT_IF(markColor() == MarkColor::Gray, !hasBlackEntries());
JSObject* obj; // The object being scanned.
SlotsOrElementsKind kind; // The kind of slot range being scanned, if any.
HeapSlot* base; // Slot range base pointer.
size_t index; // Index of the next slot to mark.
size_t end; // End of slot range to mark.
if (stack.peekTag() == MarkStack::SlotsOrElementsRangeTag) {
auto range = stack.popSlotsOrElementsRange();
obj = range.ptr().asRangeObject();
NativeObject* nobj = &obj->as<NativeObject>();
kind = range.kind();
index = range.start();
switch (kind) {
case SlotsOrElementsKind::FixedSlots: {
base = nobj->fixedSlots();
end = NumUsedFixedSlots(nobj);
break;
}
case SlotsOrElementsKind::DynamicSlots: {
base = nobj->slots_;
end = NumUsedDynamicSlots(nobj);
break;
}
case SlotsOrElementsKind::Elements: {
base = nobj->getDenseElements();
end = nobj->getDenseInitializedLength();
break;
}
case SlotsOrElementsKind::Unused: {
MOZ_MAKE_COMPILER_ASSUME_IS_UNREACHABLE("Unused SlotsOrElementsKind");
}
}
goto scan_value_range;
}
budget.step();
if (budget.isOverBudget()) {
return false;
}
{
MarkStack::TaggedPtr ptr = stack.popPtr();
switch (ptr.tag()) {
case MarkStack::ObjectTag: {
obj = ptr.as<JSObject>();
AssertShouldMarkInZone(this, obj);
goto scan_obj;
}
case MarkStack::JitCodeTag: {
auto* code = ptr.as<jit::JitCode>();
AutoSetTracingSource asts(tracer(), code);
code->traceChildren(tracer());
return true;
}
case MarkStack::ScriptTag: {
auto* script = ptr.as<BaseScript>();
if constexpr (bool(opts & MarkingOptions::MarkImplicitEdges)) {
markImplicitEdges(script);
}
AutoSetTracingSource asts(tracer(), script);
script->traceChildren(tracer());
return true;
}
default:
MOZ_CRASH("Invalid tag in mark stack");
}
}
return true;
scan_value_range:
while (index < end) {
budget.step();
if (budget.isOverBudget()) {
pushValueRange(obj, kind, index, end);
return false;
}
const Value& v = base[index];
index++;
if (v.isString()) {
markAndTraverseEdge<opts>(obj, v.toString());
} else if (v.hasObjectPayload()) {
JSObject* obj2 = &v.getObjectPayload();
#ifdef DEBUG
if (!obj2) {
fprintf(stderr,
"processMarkStackTop found ObjectValue(nullptr) "
"at %zu Values from end of range in object:\n",
size_t(end - (index - 1)));
obj->dump();
}
#endif
CheckForCompartmentMismatch(obj, obj2);
if (mark<opts>(obj2)) {
// Save the rest of this value range for later and start scanning obj2's
// children.
pushValueRange(obj, kind, index, end);
obj = obj2;
goto scan_obj;
}
} else if (v.isSymbol()) {
markAndTraverseEdge<opts>(obj, v.toSymbol());
} else if (v.isBigInt()) {
markAndTraverseEdge<opts>(obj, v.toBigInt());
} else if (v.isPrivateGCThing()) {
// v.toGCCellPtr cannot be inlined, so construct one manually.
Cell* cell = v.toGCThing();
markAndTraverseEdge<opts>(obj, JS::GCCellPtr(cell, cell->getTraceKind()));
}
}
return true;
scan_obj : {
AssertShouldMarkInZone(this, obj);
if constexpr (bool(opts & MarkingOptions::MarkImplicitEdges)) {
markImplicitEdges(obj);
}
markAndTraverseEdge<opts>(obj, obj->shape());
CallTraceHook(tracer(), obj);
if (!obj->is<NativeObject>()) {
return true;
}
NativeObject* nobj = &obj->as<NativeObject>();
unsigned nslots = nobj->slotSpan();
do {
if (nobj->hasEmptyElements()) {
break;
}
base = nobj->getDenseElements();
kind = SlotsOrElementsKind::Elements;
index = 0;
end = nobj->getDenseInitializedLength();
if (!nslots) {
goto scan_value_range;
}
pushValueRange(nobj, kind, index, end);
} while (false);
unsigned nfixed = nobj->numFixedSlots();
base = nobj->fixedSlots();
kind = SlotsOrElementsKind::FixedSlots;
index = 0;
if (nslots > nfixed) {
pushValueRange(nobj, kind, index, nfixed);
kind = SlotsOrElementsKind::DynamicSlots;
base = nobj->slots_;
end = nslots - nfixed;
goto scan_value_range;
}
MOZ_ASSERT(nslots <= nobj->numFixedSlots());
end = nslots;
goto scan_value_range;
}
}
/*** Mark Stack *************************************************************/
static_assert(sizeof(MarkStack::TaggedPtr) == sizeof(uintptr_t),
"A TaggedPtr should be the same size as a pointer");
static_assert((sizeof(MarkStack::SlotsOrElementsRange) % sizeof(uintptr_t)) ==
0,
"SlotsOrElementsRange size should be a multiple of "
"the pointer size");
static const size_t ValueRangeWords =
sizeof(MarkStack::SlotsOrElementsRange) / sizeof(uintptr_t);
template <typename T>
struct MapTypeToMarkStackTag {};
template <>
struct MapTypeToMarkStackTag<JSObject*> {
static const auto value = MarkStack::ObjectTag;
};
template <>
struct MapTypeToMarkStackTag<jit::JitCode*> {
static const auto value = MarkStack::JitCodeTag;
};
template <>
struct MapTypeToMarkStackTag<BaseScript*> {
static const auto value = MarkStack::ScriptTag;
};
static inline bool TagIsRangeTag(MarkStack::Tag tag) {
return tag == MarkStack::SlotsOrElementsRangeTag;
}
inline MarkStack::TaggedPtr::TaggedPtr(Tag tag, Cell* ptr)
: bits(tag | uintptr_t(ptr)) {
assertValid();
}
inline uintptr_t MarkStack::TaggedPtr::asBits() const { return bits; }
inline uintptr_t MarkStack::TaggedPtr::tagUnchecked() const {
return bits & TagMask;
}
inline MarkStack::Tag MarkStack::TaggedPtr::tag() const {
auto tag = Tag(bits & TagMask);
MOZ_ASSERT(tag <= LastTag);
return tag;
}
inline Cell* MarkStack::TaggedPtr::ptr() const {
return reinterpret_cast<Cell*>(bits & ~TagMask);
}
inline void MarkStack::TaggedPtr::assertValid() const {
(void)tag();
MOZ_ASSERT(IsCellPointerValid(ptr()));
}
template <typename T>
inline T* MarkStack::TaggedPtr::as() const {
MOZ_ASSERT(tag() == MapTypeToMarkStackTag<T*>::value);
MOZ_ASSERT(ptr()->isTenured());
MOZ_ASSERT(ptr()->is<T>());
return static_cast<T*>(ptr());
}
inline JSObject* MarkStack::TaggedPtr::asRangeObject() const {
MOZ_ASSERT(TagIsRangeTag(tag()));
MOZ_ASSERT(ptr()->isTenured());
return ptr()->as<JSObject>();
}
inline JSRope* MarkStack::TaggedPtr::asTempRope() const {
MOZ_ASSERT(tag() == TempRopeTag);
return &ptr()->as<JSString>()->asRope();
}
inline MarkStack::SlotsOrElementsRange::SlotsOrElementsRange(
SlotsOrElementsKind kindArg, JSObject* obj, size_t startArg)
: startAndKind_((startArg << StartShift) | size_t(kindArg)),
ptr_(SlotsOrElementsRangeTag, obj) {
assertValid();
MOZ_ASSERT(kind() == kindArg);
MOZ_ASSERT(start() == startArg);
}
inline void MarkStack::SlotsOrElementsRange::assertValid() const {
ptr_.assertValid();
MOZ_ASSERT(TagIsRangeTag(ptr_.tag()));
}
inline SlotsOrElementsKind MarkStack::SlotsOrElementsRange::kind() const {
return SlotsOrElementsKind(startAndKind_ & KindMask);
}
inline size_t MarkStack::SlotsOrElementsRange::start() const {
return startAndKind_ >> StartShift;
}
inline void MarkStack::SlotsOrElementsRange::setStart(size_t newStart) {
startAndKind_ = (newStart << StartShift) | uintptr_t(kind());
MOZ_ASSERT(start() == newStart);
}
inline void MarkStack::SlotsOrElementsRange::setEmpty() {
TaggedPtr entry = TaggedPtr(ObjectTag, ptr().asRangeObject());
ptr_ = entry;
startAndKind_ = entry.asBits();
}
inline MarkStack::TaggedPtr MarkStack::SlotsOrElementsRange::ptr() const {
return ptr_;
}
MarkStack::MarkStack() { MOZ_ASSERT(isEmpty()); }
MarkStack::~MarkStack() { MOZ_ASSERT(isEmpty()); }
MarkStack::MarkStack(const MarkStack& other) {
MOZ_CRASH("Compiler requires this but doesn't call it");
}
MarkStack& MarkStack::operator=(const MarkStack& other) {
new (this) MarkStack(other);
return *this;
}
MarkStack::MarkStack(MarkStack&& other)
: stack_(std::move(other.stack_.ref())),
topIndex_(other.topIndex_.ref())
#ifdef JS_GC_ZEAL
,
maxCapacity_(other.maxCapacity_)
#endif
{
other.topIndex_ = 0;
}
MarkStack& MarkStack::operator=(MarkStack&& other) {
new (this) MarkStack(std::move(other));
return *this;
}
bool MarkStack::init() { return resetStackCapacity(); }
bool MarkStack::resetStackCapacity() {
MOZ_ASSERT(isEmpty());
size_t capacity = MARK_STACK_BASE_CAPACITY;
#ifdef JS_GC_ZEAL
capacity = std::min(capacity, maxCapacity_.ref());
#endif
return resize(capacity);
}
#ifdef JS_GC_ZEAL
void MarkStack::setMaxCapacity(size_t maxCapacity) {
MOZ_ASSERT(maxCapacity != 0);
MOZ_ASSERT(isEmpty());
maxCapacity_ = maxCapacity;
if (capacity() > maxCapacity_) {
// If the realloc fails, just keep using the existing stack; it's
// not ideal but better than failing.
(void)resize(maxCapacity_);
}
}
#endif
MOZ_ALWAYS_INLINE bool MarkStack::indexIsEntryBase(size_t index) const {
// The mark stack holds both TaggedPtr and SlotsOrElementsRange entries, which
// are one or two words long respectively. Determine whether |index| points to
// the base of an entry (i.e. the lowest word in memory).
//
// The possible cases are that |index| points to:
// 1. a single word TaggedPtr entry => true
// 2. the startAndKind_ word of SlotsOrElementsRange => true
// (startAndKind_ is a uintptr_t tagged with SlotsOrElementsKind)
// 3. the ptr_ word of SlotsOrElementsRange (itself a TaggedPtr) => false
//
// To check for case 3, interpret the word as a TaggedPtr: if it is tagged as
// a SlotsOrElementsRange tagged pointer then we are inside such a range and
// |index| does not point to the base of an entry. This requires that no
// startAndKind_ word can be interpreted as such, which is arranged by making
// SlotsOrElementsRangeTag zero and all SlotsOrElementsKind tags non-zero.
MOZ_ASSERT(index < position());
return stack()[index].tagUnchecked() != SlotsOrElementsRangeTag;
}
/* static */
void MarkStack::moveWork(MarkStack& dst, MarkStack& src) {
// Move some work from |src| to |dst|. Assumes |dst| is empty.
//
// When this method runs during parallel marking, we are on the thread that
// owns |src|, and the thread that owns |dst| is blocked waiting on the
// ParallelMarkTask::resumed condition variable.
// Limit the size of moves to stop threads with work spending too much time
// donating.
static const size_t MaxWordsToMove = 4096;
size_t totalWords = src.position();
size_t wordsToMove = std::min(totalWords / 2, MaxWordsToMove);
size_t targetPos = src.position() - wordsToMove;
// Adjust the target position in case it points to the middle of a two word
// entry.
if (!src.indexIsEntryBase(targetPos)) {
targetPos--;
wordsToMove++;
}
MOZ_ASSERT(src.indexIsEntryBase(targetPos));
MOZ_ASSERT(targetPos < src.position());
MOZ_ASSERT(targetPos > 0);
MOZ_ASSERT(wordsToMove == src.position() - targetPos);
if (!dst.ensureSpace(wordsToMove)) {
return;
}
// TODO: This doesn't have good cache behaviour when moving work between
// threads. It might be better if the original thread ended up with the top
// part of the stack, in src words if this method stole from the bottom of
// the stack rather than the top.
mozilla::PodCopy(dst.topPtr(), src.stack().begin() + targetPos, wordsToMove);
dst.topIndex_ += wordsToMove;
dst.peekPtr().assertValid();
src.topIndex_ = targetPos;
#ifdef DEBUG
src.poisonUnused();
#endif
src.peekPtr().assertValid();
}
void MarkStack::clearAndResetCapacity() {
// Fall back to the smaller initial capacity so we don't hold on to excess
// memory between GCs.
stack().clear();
topIndex_ = 0;
(void)resetStackCapacity();
}
void MarkStack::clearAndFreeStack() {
// Free all stack memory so we don't hold on to excess memory between GCs.
stack().clearAndFree();
topIndex_ = 0;
}
inline MarkStack::TaggedPtr* MarkStack::topPtr() { return &stack()[topIndex_]; }
template <typename T>
inline bool MarkStack::push(T* ptr) {
return push(TaggedPtr(MapTypeToMarkStackTag<T*>::value, ptr));
}
inline bool MarkStack::pushTempRope(JSRope* rope) {
return push(TaggedPtr(TempRopeTag, rope));
}
inline bool MarkStack::push(const TaggedPtr& ptr) {
if (!ensureSpace(1)) {
return false;
}
infalliblePush(ptr);
return true;
}
inline void MarkStack::infalliblePush(const TaggedPtr& ptr) {
*topPtr() = ptr;
topIndex_++;
MOZ_ASSERT(position() <= capacity());
}
inline bool MarkStack::push(JSObject* obj, SlotsOrElementsKind kind,
size_t start) {
return push(SlotsOrElementsRange(kind, obj, start));
}
inline bool MarkStack::push(const SlotsOrElementsRange& array) {
array.assertValid();
if (!ensureSpace(ValueRangeWords)) {
return false;
}
infalliblePush(array);
return true;
}
inline void MarkStack::infalliblePush(const SlotsOrElementsRange& array) {
*reinterpret_cast<SlotsOrElementsRange*>(topPtr()) = array;
topIndex_ += ValueRangeWords;
MOZ_ASSERT(position() <= capacity());
MOZ_ASSERT(TagIsRangeTag(peekTag()));
}
inline const MarkStack::TaggedPtr& MarkStack::peekPtr() const {
MOZ_ASSERT(!isEmpty());
return stack()[topIndex_ - 1];
}
inline MarkStack::Tag MarkStack::peekTag() const {
MOZ_ASSERT(!isEmpty());
return peekPtr().tag();
}
inline MarkStack::TaggedPtr MarkStack::popPtr() {
MOZ_ASSERT(!isEmpty());
MOZ_ASSERT(!TagIsRangeTag(peekTag()));
peekPtr().assertValid();
topIndex_--;
return *topPtr();
}
inline MarkStack::SlotsOrElementsRange MarkStack::popSlotsOrElementsRange() {
MOZ_ASSERT(!isEmpty());
MOZ_ASSERT(TagIsRangeTag(peekTag()));
MOZ_ASSERT(position() >= ValueRangeWords);
topIndex_ -= ValueRangeWords;
const auto& array = *reinterpret_cast<SlotsOrElementsRange*>(topPtr());
array.assertValid();
return array;
}
inline bool MarkStack::ensureSpace(size_t count) {
if (MOZ_LIKELY((topIndex_ + count) <= capacity())) {
return !js::oom::ShouldFailWithOOM();
}
return enlarge(count);
}
MOZ_NEVER_INLINE bool MarkStack::enlarge(size_t count) {
size_t required = capacity() + count;
size_t newCapacity = mozilla::RoundUpPow2(required);
#ifdef JS_GC_ZEAL
newCapacity = std::min(newCapacity, maxCapacity_.ref());
if (newCapacity < required) {
return false;
}
#endif
return resize(newCapacity);
}
bool MarkStack::resize(size_t newCapacity) {
MOZ_ASSERT(newCapacity != 0);
MOZ_ASSERT(newCapacity >= position());
if (!stack().resize(newCapacity)) {
return false;
}
poisonUnused();
return true;
}
inline void MarkStack::poisonUnused() {
static_assert((JS_FRESH_MARK_STACK_PATTERN & TagMask) > LastTag,
"The mark stack poison pattern must not look like a valid "
"tagged pointer");
AlwaysPoison(stack().begin() + topIndex_, JS_FRESH_MARK_STACK_PATTERN,
stack().capacity() - topIndex_, MemCheckKind::MakeUndefined);
}
size_t MarkStack::sizeOfExcludingThis(
mozilla::MallocSizeOf mallocSizeOf) const {
return stack().sizeOfExcludingThis(mallocSizeOf);
}
MarkStackIter::MarkStackIter(MarkStack& stack)
: stack_(stack), pos_(stack.position()) {}
inline size_t MarkStackIter::position() const { return pos_; }
inline bool MarkStackIter::done() const { return position() == 0; }
inline void MarkStackIter::next() {
if (isSlotsOrElementsRange()) {
MOZ_ASSERT(position() >= ValueRangeWords);
pos_ -= ValueRangeWords;
return;
}
MOZ_ASSERT(!done());
pos_--;
}
inline bool MarkStackIter::isSlotsOrElementsRange() const {
return TagIsRangeTag(peekTag());
}
inline MarkStack::Tag MarkStackIter::peekTag() const { return peekPtr().tag(); }
inline MarkStack::TaggedPtr MarkStackIter::peekPtr() const {
MOZ_ASSERT(!done());
return stack_.stack()[pos_ - 1];
}
inline MarkStack::SlotsOrElementsRange& MarkStackIter::slotsOrElementsRange() {
MOZ_ASSERT(TagIsRangeTag(peekTag()));
MOZ_ASSERT(position() >= ValueRangeWords);
MarkStack::TaggedPtr* ptr = &stack_.stack()[pos_ - ValueRangeWords];
auto& range = *reinterpret_cast<MarkStack::SlotsOrElementsRange*>(ptr);
range.assertValid();
return range;
}
/*** GCMarker ***************************************************************/
/*
* WeakMapTraceAction::Expand: the GC is recomputing the liveness of WeakMap
* entries by expanding each live WeakMap into its constituent key->value edges,
* a table of which will be consulted in a later phase whenever marking a
* potential key.
*/
GCMarker::GCMarker(JSRuntime* rt)
: tracer_(mozilla::VariantType<MarkingTracer>(), rt, this),
runtime_(rt),
haveSwappedStacks(false),
markColor_(MarkColor::Black),
state(NotActive),
incrementalWeakMapMarkingEnabled(
TuningDefaults::IncrementalWeakMapMarkingEnabled)
#ifdef DEBUG
,
checkAtomMarking(true),
strictCompartmentChecking(false)
#endif
{
}
bool GCMarker::init() { return stack.init(); }
void GCMarker::start() {
MOZ_ASSERT(state == NotActive);
MOZ_ASSERT(stack.isEmpty());
state = RegularMarking;
haveAllImplicitEdges = true;
setMarkColor(MarkColor::Black);
}
static void ClearEphemeronEdges(JSRuntime* rt) {
AutoEnterOOMUnsafeRegion oomUnsafe;
for (GCZonesIter zone(rt); !zone.done(); zone.next()) {
if (!zone->gcEphemeronEdges().clear()) {
oomUnsafe.crash("clearing weak keys in GCMarker::stop()");
}
if (!zone->gcNurseryEphemeronEdges().clear()) {
oomUnsafe.crash("clearing (nursery) weak keys in GCMarker::stop()");
}
}
}
void GCMarker::stop() {
MOZ_ASSERT(isDrained());
MOZ_ASSERT(markColor() == MarkColor::Black);
MOZ_ASSERT(!haveSwappedStacks);
if (state == NotActive) {
return;
}
state = NotActive;
(void)stack.resetStackCapacity();
otherStack.clearAndFreeStack();
ClearEphemeronEdges(runtime());
unmarkGrayStack.clearAndFree();
}
void GCMarker::reset() {
stack.clearAndResetCapacity();
otherStack.clearAndFreeStack();
ClearEphemeronEdges(runtime());
MOZ_ASSERT(isDrained());
setMarkColor(MarkColor::Black);
MOZ_ASSERT(!haveSwappedStacks);
unmarkGrayStack.clearAndFree();
}
void GCMarker::setMarkColor(gc::MarkColor newColor) {
if (markColor_ == newColor) {
return;
}
// We don't support gray marking while there is black marking work to do.
MOZ_ASSERT(!hasBlackEntries());
markColor_ = newColor;
// Switch stacks. We only need to do this if there are any stack entries (as
// empty stacks are interchangeable) or to swtich back to the original stack.
if (!isDrained() || haveSwappedStacks) {
std::swap(stack, otherStack);
haveSwappedStacks = !haveSwappedStacks;
}
}
bool GCMarker::hasEntries(MarkColor color) const {
const MarkStack& stackForColor = color == markColor() ? stack : otherStack;
return stackForColor.hasEntries();
}
template <typename T>
inline void GCMarker::pushTaggedPtr(T* ptr) {
checkZone(ptr);
if (!stack.push(ptr)) {
delayMarkingChildrenOnOOM(ptr);
}
}
inline void GCMarker::pushValueRange(JSObject* obj, SlotsOrElementsKind kind,
size_t start, size_t end) {
checkZone(obj);
MOZ_ASSERT(obj->is<NativeObject>());
MOZ_ASSERT(start <= end);
if (start == end) {
return;
}
if (MOZ_UNLIKELY(!stack.push(obj, kind, start))) {
delayMarkingChildrenOnOOM(obj);
}
}
void GCMarker::repush(JSObject* obj) {
MOZ_ASSERT(obj->asTenured().isMarkedAtLeast(markColor()));
pushTaggedPtr(obj);
}
void GCMarker::setRootMarkingMode(bool newState) {
if (newState) {
setMarkingStateAndTracer<RootMarkingTracer>(RegularMarking, RootMarking);
} else {
setMarkingStateAndTracer<MarkingTracer>(RootMarking, RegularMarking);
}
}
void GCMarker::enterParallelMarkingMode(ParallelMarker* pm) {
MOZ_ASSERT(pm);
MOZ_ASSERT(!parallelMarker_);
setMarkingStateAndTracer<ParallelMarkingTracer>(RegularMarking,
ParallelMarking);
parallelMarker_ = pm;
}
void GCMarker::leaveParallelMarkingMode() {
MOZ_ASSERT(parallelMarker_);
setMarkingStateAndTracer<MarkingTracer>(ParallelMarking, RegularMarking);
parallelMarker_ = nullptr;
}
bool GCMarker::canDonateWork() const {
// It's not worth the overhead of donating very few entries. For some
// (non-parallelizable) workloads this can lead to constantly interrupting
// marking work and makes parallel marking slower than single threaded.
constexpr size_t MinWordCount = 12;
static_assert(MinWordCount >= ValueRangeWords,
"We must always leave at least one stack entry.");
return stack.position() > MinWordCount;
}
template <typename Tracer>
void GCMarker::setMarkingStateAndTracer(MarkingState prev, MarkingState next) {
MOZ_ASSERT(state == prev);
state = next;
tracer_.emplace<Tracer>(runtime(), this);
}
bool GCMarker::enterWeakMarkingMode() {
MOZ_ASSERT(tracer()->weakMapAction() == JS::WeakMapTraceAction::Expand);
MOZ_ASSERT(state == RegularMarking);
if (!haveAllImplicitEdges) {
return false;
}
// During weak marking mode, we maintain a table mapping weak keys to
// entries in known-live weakmaps. Initialize it with the keys of marked
// weakmaps -- or more precisely, the keys of marked weakmaps that are
// mapped to not yet live values. (Once bug 1167452 implements incremental
// weakmap marking, this initialization step will become unnecessary, as
// the table will already hold all such keys.)
// Set state before doing anything else, so any new key that is marked
// during the following gcEphemeronEdges scan will itself be looked up in
// gcEphemeronEdges and marked according to ephemeron rules.
state = WeakMarking;
return true;
}
IncrementalProgress JS::Zone::enterWeakMarkingMode(GCMarker* marker,
SliceBudget& budget) {
MOZ_ASSERT(marker->isWeakMarking());
if (!marker->incrementalWeakMapMarkingEnabled) {
for (WeakMapBase* m : gcWeakMapList()) {
if (m->mapColor) {
(void)m->markEntries(marker);
}
}
return IncrementalProgress::Finished;
}
// gcEphemeronEdges contains the keys from all weakmaps marked so far, or at
// least the keys that might still need to be marked through. Scan through
// gcEphemeronEdges and mark all values whose keys are marked. This marking
// may recursively mark through other weakmap entries (immediately since we
// are now in WeakMarking mode). The end result is a consistent state where
// all values are marked if both their map and key are marked -- though note
// that we may later leave weak marking mode, do some more marking, and then
// enter back in.
if (!isGCMarking()) {
return IncrementalProgress::Finished;
}
MOZ_ASSERT(gcNurseryEphemeronEdges().count() == 0);
// An OrderedHashMap::MutableRange stays valid even when the underlying table
// (zone->gcEphemeronEdges) is mutated, which is useful here since we may add
// additional entries while iterating over the Range.
EphemeronEdgeTable::MutableRange r = gcEphemeronEdges().mutableAll();
while (!r.empty()) {
Cell* src = r.front().key;
CellColor srcColor = gc::detail::GetEffectiveColor(marker, src);
auto& edges = r.front().value;
r.popFront(); // Pop before any mutations happen.
if (edges.length() > 0) {
uint32_t steps = edges.length();
marker->markEphemeronEdges(edges, srcColor);
budget.step(steps);
if (budget.isOverBudget()) {
return NotFinished;
}
}
}
return IncrementalProgress::Finished;
}
void GCMarker::leaveWeakMarkingMode() {
MOZ_ASSERT(state == WeakMarking || state == RegularMarking);
state = RegularMarking;
// The gcEphemeronEdges table is still populated and may be used during a
// future weak marking mode within this GC.
}
void GCMarker::abortLinearWeakMarking() {
haveAllImplicitEdges = false;
if (state == WeakMarking) {
leaveWeakMarkingMode();
}
}
MOZ_NEVER_INLINE void GCMarker::delayMarkingChildrenOnOOM(Cell* cell) {
runtime()->gc.delayMarkingChildren(cell, markColor());
}
bool GCRuntime::hasDelayedMarking() const {
bool result = delayedMarkingList;
MOZ_ASSERT(result == (markLaterArenas != 0));
return result;
}
void GCRuntime::delayMarkingChildren(Cell* cell, MarkColor color) {
// Synchronize access to delayed marking state during parallel marking.
LockGuard<Mutex> lock(delayedMarkingLock);
Arena* arena = cell->asTenured().arena();
if (!arena->onDelayedMarkingList()) {
arena->setNextDelayedMarkingArena(delayedMarkingList);
delayedMarkingList = arena;
#ifdef DEBUG
markLaterArenas++;
#endif
}
if (!arena->hasDelayedMarking(color)) {
arena->setHasDelayedMarking(color, true);
delayedMarkingWorkAdded = true;
}
}
void GCRuntime::markDelayedChildren(Arena* arena, MarkColor color) {
JSTracer* trc = marker().tracer();
JS::TraceKind kind = MapAllocToTraceKind(arena->getAllocKind());
MarkColor colorToCheck =
TraceKindCanBeMarkedGray(kind) ? color : MarkColor::Black;
for (ArenaCellIterUnderGC cell(arena); !cell.done(); cell.next()) {
if (cell->isMarked(colorToCheck)) {
ApplyGCThingTyped(cell, kind, [trc, this](auto t) {
t->traceChildren(trc);
marker().markImplicitEdges(t);
});
}
}
}
/*
* Process arenas from |delayedMarkingList| by marking the unmarked children of
* marked cells of color |color|.
*
* This is called twice, first to mark gray children and then to mark black
* children.
*/
void GCRuntime::processDelayedMarkingList(MarkColor color) {
// Marking delayed children may add more arenas to the list, including arenas
// we are currently processing or have previously processed. Handle this by
// clearing a flag on each arena before marking its children. This flag will
// be set again if the arena is re-added. Iterate the list until no new arenas
// were added.
AutoSetMarkColor setColor(marker(), color);
AutoUpdateMarkStackRanges updateRanges(marker());
do {
delayedMarkingWorkAdded = false;
for (Arena* arena = delayedMarkingList; arena;
arena = arena->getNextDelayedMarking()) {
if (arena->hasDelayedMarking(color)) {
arena->setHasDelayedMarking(color, false);
markDelayedChildren(arena, color);
}
}
while (marker().hasEntriesForCurrentColor()) {
SliceBudget budget = SliceBudget::unlimited();
MOZ_ALWAYS_TRUE(
marker().processMarkStackTop<NormalMarkingOptions>(budget));
}
} while (delayedMarkingWorkAdded);
MOZ_ASSERT(marker().isDrained());
}
void GCRuntime::markAllDelayedChildren(ShouldReportMarkTime reportTime) {
MOZ_ASSERT(CurrentThreadIsMainThread() || CurrentThreadIsPerformingGC());
MOZ_ASSERT(marker().isDrained());
MOZ_ASSERT(hasDelayedMarking());
mozilla::Maybe<gcstats::AutoPhase> ap;
if (reportTime) {
ap.emplace(stats(), gcstats::PhaseKind::MARK_DELAYED);
}
// We have a list of arenas containing marked cells with unmarked children
// where we ran out of stack space during marking. Both black and gray cells
// in these arenas may have unmarked children. Mark black children first.
const MarkColor colors[] = {MarkColor::Black, MarkColor::Gray};
for (MarkColor color : colors) {
processDelayedMarkingList(color);
rebuildDelayedMarkingList();
}
MOZ_ASSERT(!hasDelayedMarking());
}
void GCRuntime::rebuildDelayedMarkingList() {
// Rebuild the delayed marking list, removing arenas which do not need further
// marking.
Arena* listTail = nullptr;
forEachDelayedMarkingArena([&](Arena* arena) {
if (!arena->hasAnyDelayedMarking()) {
arena->clearDelayedMarkingState();
#ifdef DEBUG
MOZ_ASSERT(markLaterArenas);
markLaterArenas--;
#endif
return;
}
appendToDelayedMarkingList(&listTail, arena);
});
appendToDelayedMarkingList(&listTail, nullptr);
}
void GCRuntime::resetDelayedMarking() {
MOZ_ASSERT(CurrentThreadIsMainThread());
forEachDelayedMarkingArena([&](Arena* arena) {
MOZ_ASSERT(arena->onDelayedMarkingList());
arena->clearDelayedMarkingState();
#ifdef DEBUG
MOZ_ASSERT(markLaterArenas);
markLaterArenas--;
#endif
});
delayedMarkingList = nullptr;
MOZ_ASSERT(!markLaterArenas);
}
inline void GCRuntime::appendToDelayedMarkingList(Arena** listTail,
Arena* arena) {
if (*listTail) {
(*listTail)->updateNextDelayedMarkingArena(arena);
} else {
delayedMarkingList = arena;
}
*listTail = arena;
}
template <typename F>
inline void GCRuntime::forEachDelayedMarkingArena(F&& f) {
Arena* arena = delayedMarkingList;
Arena* next;
while (arena) {
next = arena->getNextDelayedMarking();
f(arena);
arena = next;
}
}
#ifdef DEBUG
void GCMarker::checkZone(void* p) {
MOZ_ASSERT(state != NotActive);
DebugOnly<Cell*> cell = static_cast<Cell*>(p);
MOZ_ASSERT_IF(cell->isTenured(),
cell->asTenured().zone()->isCollectingFromAnyThread());
}
#endif
size_t GCMarker::sizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf) const {
return mallocSizeOf(this) + stack.sizeOfExcludingThis(mallocSizeOf) +
otherStack.sizeOfExcludingThis(mallocSizeOf);
}
/*** IsMarked / IsAboutToBeFinalized ****************************************/
template <typename T>
static inline void CheckIsMarkedThing(T* thing) {
#define IS_SAME_TYPE_OR(name, type, _, _1) std::is_same_v<type, T> ||
static_assert(JS_FOR_EACH_TRACEKIND(IS_SAME_TYPE_OR) false,
"Only the base cell layout types are allowed into "
"marking/tracing internals");
#undef IS_SAME_TYPE_OR
#ifdef DEBUG
MOZ_ASSERT(thing);
// Allow any thread access to uncollected things.
Zone* zone = thing->zoneFromAnyThread();
if (thing->isPermanentAndMayBeShared()) {
MOZ_ASSERT(!zone->wasGCStarted());
MOZ_ASSERT(!zone->needsIncrementalBarrier());
MOZ_ASSERT(thing->isMarkedBlack());
return;
}
// Allow the current thread access if it is sweeping or in sweep-marking, but
// try to check the zone. Some threads have access to all zones when sweeping.
JS::GCContext* gcx = TlsGCContext.get();
MOZ_ASSERT(gcx->gcUse() != GCUse::Finalizing);
if (gcx->gcUse() == GCUse::Sweeping || gcx->gcUse() == GCUse::Marking) {
MOZ_ASSERT_IF(gcx->gcSweepZone(),
gcx->gcSweepZone() == zone || zone->isAtomsZone());
return;
}
// Otherwise only allow access from the main thread or this zone's associated
// thread.
MOZ_ASSERT(CurrentThreadCanAccessRuntime(thing->runtimeFromAnyThread()) ||
CurrentThreadCanAccessZone(thing->zoneFromAnyThread()));
#endif
}
template <typename T>
bool js::gc::IsMarkedInternal(JSRuntime* rt, T* thing) {
// Don't depend on the mark state of other cells during finalization.
MOZ_ASSERT(!CurrentThreadIsGCFinalizing());
MOZ_ASSERT(rt->heapState() != JS::HeapState::MinorCollecting);
MOZ_ASSERT(thing);
CheckIsMarkedThing(thing);
// This is not used during minor sweeping nor used to update moved GC things.
MOZ_ASSERT(!IsForwarded(thing));
// Permanent things are never marked by non-owning runtimes.
TenuredCell* cell = &thing->asTenured();
Zone* zone = cell->zoneFromAnyThread();
#ifdef DEBUG
if (IsOwnedByOtherRuntime(rt, thing)) {
MOZ_ASSERT(!zone->wasGCStarted());
MOZ_ASSERT(thing->isMarkedBlack());
}
#endif
return !zone->isGCMarking() || TenuredThingIsMarkedAny(thing);
}
template <typename T>
bool js::gc::IsAboutToBeFinalizedInternal(T* thing) {
// Don't depend on the mark state of other cells during finalization.
MOZ_ASSERT(!CurrentThreadIsGCFinalizing());
MOZ_ASSERT(thing);
CheckIsMarkedThing(thing);
// This is not used during minor sweeping nor used to update moved GC things.
MOZ_ASSERT(!IsForwarded(thing));
if (!thing->isTenured()) {
return false;
}
// Permanent things are never finalized by non-owning runtimes.
TenuredCell* cell = &thing->asTenured();
Zone* zone = cell->zoneFromAnyThread();
#ifdef DEBUG
JSRuntime* rt = TlsGCContext.get()->runtimeFromAnyThread();
if (IsOwnedByOtherRuntime(rt, thing)) {
MOZ_ASSERT(!zone->wasGCStarted());
MOZ_ASSERT(thing->isMarkedBlack());
}
#endif
return zone->isGCSweeping() && !TenuredThingIsMarkedAny(thing);
}
template <typename T>
bool js::gc::IsAboutToBeFinalizedInternal(const T& thing) {
bool dying = false;
ApplyGCThingTyped(
thing, [&dying](auto t) { dying = IsAboutToBeFinalizedInternal(t); });
return dying;
}
SweepingTracer::SweepingTracer(JSRuntime* rt)
: GenericTracerImpl(rt, JS::TracerKind::Sweeping,
JS::WeakMapTraceAction::TraceKeysAndValues) {}
template <typename T>
inline void SweepingTracer::onEdge(T** thingp, const char* name) {
T* thing = *thingp;
CheckIsMarkedThing(thing);
if (!thing->isTenured()) {
return;
}
// Permanent things are never finalized by non-owning runtimes.
TenuredCell* cell = &thing->asTenured();
Zone* zone = cell->zoneFromAnyThread();
#ifdef DEBUG
if (IsOwnedByOtherRuntime(runtime(), thing)) {
MOZ_ASSERT(!zone->wasGCStarted());
MOZ_ASSERT(thing->isMarkedBlack());
}
#endif
// It would be nice if we could assert that the zone of the tenured cell is in
// the Sweeping state, but that isn't always true for:
// - atoms
// - the jitcode map
// - the mark queue
if (zone->isGCSweeping() && !cell->isMarkedAny()) {
*thingp = nullptr;
}
}
namespace js {
namespace gc {
template <typename T>
JS_PUBLIC_API bool TraceWeakEdge(JSTracer* trc, JS::Heap<T>* thingp) {
return TraceEdgeInternal(trc, gc::ConvertToBase(thingp->unsafeGet()),
"JS::Heap edge");
}
template <typename T>
JS_PUBLIC_API bool EdgeNeedsSweepUnbarrieredSlow(T* thingp) {
return IsAboutToBeFinalizedInternal(*ConvertToBase(thingp));
}
// Instantiate a copy of the Tracing templates for each public GC type.
#define INSTANTIATE_ALL_VALID_HEAP_TRACE_FUNCTIONS(type) \
template JS_PUBLIC_API bool TraceWeakEdge<type>(JSTracer * trc, \
JS::Heap<type>*); \
template JS_PUBLIC_API bool EdgeNeedsSweepUnbarrieredSlow<type>(type*);
JS_FOR_EACH_PUBLIC_GC_POINTER_TYPE(INSTANTIATE_ALL_VALID_HEAP_TRACE_FUNCTIONS)
JS_FOR_EACH_PUBLIC_TAGGED_GC_POINTER_TYPE(
INSTANTIATE_ALL_VALID_HEAP_TRACE_FUNCTIONS)
#define INSTANTIATE_INTERNAL_IS_MARKED_FUNCTION(type) \
template bool IsMarkedInternal(JSRuntime* rt, type thing);
#define INSTANTIATE_INTERNAL_IATBF_FUNCTION(type) \
template bool IsAboutToBeFinalizedInternal(type thingp);
#define INSTANTIATE_INTERNAL_MARKING_FUNCTIONS_FROM_TRACEKIND(_1, type, _2, \
_3) \
INSTANTIATE_INTERNAL_IS_MARKED_FUNCTION(type*) \
INSTANTIATE_INTERNAL_IATBF_FUNCTION(type*)
JS_FOR_EACH_TRACEKIND(INSTANTIATE_INTERNAL_MARKING_FUNCTIONS_FROM_TRACEKIND)
#define INSTANTIATE_IATBF_FUNCTION_FOR_TAGGED_POINTER(type) \
INSTANTIATE_INTERNAL_IATBF_FUNCTION(const type&)
JS_FOR_EACH_PUBLIC_TAGGED_GC_POINTER_TYPE(
INSTANTIATE_IATBF_FUNCTION_FOR_TAGGED_POINTER)
#undef INSTANTIATE_INTERNAL_IS_MARKED_FUNCTION
#undef INSTANTIATE_INTERNAL_IATBF_FUNCTION
#undef INSTANTIATE_INTERNAL_MARKING_FUNCTIONS_FROM_TRACEKIND
#undef INSTANTIATE_IATBF_FUNCTION_FOR_TAGGED_POINTER
} /* namespace gc */
} /* namespace js */
/*** Cycle Collector Barrier Implementation *********************************/
/*
* The GC and CC are run independently. Consequently, the following sequence of
* events can occur:
* 1. GC runs and marks an object gray.
* 2. The mutator runs (specifically, some C++ code with access to gray
* objects) and creates a pointer from a JS root or other black object to
* the gray object. If we re-ran a GC at this point, the object would now be
* black.
* 3. Now we run the CC. It may think it can collect the gray object, even
* though it's reachable from the JS heap.
*
* To prevent this badness, we unmark the gray bit of an object when it is
* accessed by callers outside XPConnect. This would cause the object to go
* black in step 2 above. This must be done on everything reachable from the
* object being returned. The following code takes care of the recursive
* re-coloring.
*
* There is an additional complication for certain kinds of edges that are not
* contained explicitly in the source object itself, such as from a weakmap key
* to its value. These "implicit edges" are represented in some other
* container object, such as the weakmap itself. In these
* cases, calling unmark gray on an object won't find all of its children.
*
* Handling these implicit edges has two parts:
* - A special pass enumerating all of the containers that know about the
* implicit edges to fix any black-gray edges that have been created. This
* is implemented in nsXPConnect::FixWeakMappingGrayBits.
* - To prevent any incorrectly gray objects from escaping to live JS outside
* of the containers, we must add unmark-graying read barriers to these
* containers.
*/
#ifdef DEBUG
struct AssertNonGrayTracer final : public JS::CallbackTracer {
// This is used by the UnmarkGray tracer only, and needs to report itself as
// the non-gray tracer to not trigger assertions. Do not use it in another
// context without making this more generic.
explicit AssertNonGrayTracer(JSRuntime* rt)
: JS::CallbackTracer(rt, JS::TracerKind::UnmarkGray) {}
void onChild(JS::GCCellPtr thing, const char* name) override {
MOZ_ASSERT(!thing.asCell()->isMarkedGray());
}
};
#endif
class js::gc::UnmarkGrayTracer final : public JS::CallbackTracer {
public:
// We set weakMapAction to WeakMapTraceAction::Skip because the cycle
// collector will fix up any color mismatches involving weakmaps when it runs.
explicit UnmarkGrayTracer(GCMarker* marker)
: JS::CallbackTracer(marker->runtime(), JS::TracerKind::UnmarkGray,
JS::WeakMapTraceAction::Skip),
unmarkedAny(false),
oom(false),
marker(marker),
stack(marker->unmarkGrayStack) {}
void unmark(JS::GCCellPtr cell);
// Whether we unmarked anything.
bool unmarkedAny;
// Whether we ran out of memory.
bool oom;
private:
// Marker to use if we need to unmark in zones that are currently being
// marked.
GCMarker* marker;
// Stack of cells to traverse.
Vector<JS::GCCellPtr, 0, SystemAllocPolicy>& stack;
void onChild(JS::GCCellPtr thing, const char* name) override;
};
void UnmarkGrayTracer::onChild(JS::GCCellPtr thing, const char* name) {
Cell* cell = thing.asCell();
// Cells in the nursery cannot be gray, and nor can certain kinds of tenured
// cells. These must necessarily point only to black edges.
if (!cell->isTenured() || !TraceKindCanBeMarkedGray(thing.kind())) {
#ifdef DEBUG
MOZ_ASSERT(!cell->isMarkedGray());
AssertNonGrayTracer nongray(runtime());
JS::TraceChildren(&nongray, thing);
#endif
return;
}
TenuredCell& tenured = cell->asTenured();
Zone* zone = tenured.zone();
// If the cell is in a zone whose mark bits are being cleared, then it will
// end up white.
if (zone->isGCPreparing()) {
return;
}
// If the cell is in a zone that we're currently marking, then it's possible
// that it is currently white but will end up gray. To handle this case,
// trigger the barrier for any cells in zones that are currently being
// marked. This will ensure they will eventually get marked black.
if (zone->isGCMarking()) {
if (!cell->isMarkedBlack()) {
TraceEdgeForBarrier(marker, &tenured, thing.kind());
unmarkedAny = true;
}
return;
}
if (!tenured.isMarkedGray()) {
return;
}
// TODO: It may be a small improvement to only use the atomic version during
// parallel marking.
tenured.markBlackAtomic();
unmarkedAny = true;
if (!stack.append(thing)) {
oom = true;
}
}
void UnmarkGrayTracer::unmark(JS::GCCellPtr cell) {
MOZ_ASSERT(stack.empty());
onChild(cell, "unmarking root");
while (!stack.empty() && !oom) {
TraceChildren(this, stack.popCopy());
}
if (oom) {
// If we run out of memory, we take a drastic measure: require that we
// GC again before the next CC.
stack.clear();
runtime()->gc.setGrayBitsInvalid();
return;
}
}
bool js::gc::UnmarkGrayGCThingUnchecked(GCMarker* marker, JS::GCCellPtr thing) {
MOZ_ASSERT(thing);
MOZ_ASSERT(thing.asCell()->isMarkedGray());
mozilla::Maybe<AutoGeckoProfilerEntry> profilingStackFrame;
if (JSContext* cx = TlsContext.get()) {
profilingStackFrame.emplace(cx, "UnmarkGrayGCThing",
JS::ProfilingCategoryPair::GCCC_UnmarkGray);
}
UnmarkGrayTracer unmarker(marker);
unmarker.unmark(thing);
return unmarker.unmarkedAny;
}
JS_PUBLIC_API bool JS::UnmarkGrayGCThingRecursively(JS::GCCellPtr thing) {
MOZ_ASSERT(!JS::RuntimeHeapIsCollecting());
MOZ_ASSERT(!JS::RuntimeHeapIsCycleCollecting());
JSRuntime* rt = thing.asCell()->runtimeFromMainThread();
if (thing.asCell()->zone()->isGCPreparing()) {
// Mark bits are being cleared in preparation for GC.
return false;
}
return UnmarkGrayGCThingUnchecked(&rt->gc.marker(), thing);
}
void js::gc::UnmarkGrayGCThingRecursively(TenuredCell* cell) {
JS::UnmarkGrayGCThingRecursively(JS::GCCellPtr(cell, cell->getTraceKind()));
}
bool js::UnmarkGrayShapeRecursively(Shape* shape) {
return JS::UnmarkGrayGCThingRecursively(JS::GCCellPtr(shape));
}
#ifdef DEBUG
Cell* js::gc::UninlinedForwarded(const Cell* cell) { return Forwarded(cell); }
#endif
namespace js {
namespace debug {
MarkInfo GetMarkInfo(Cell* rawCell) {
if (!rawCell->isTenured()) {
return MarkInfo::NURSERY;
}
TenuredCell* cell = &rawCell->asTenured();
if (cell->isMarkedGray()) {
return MarkInfo::GRAY;
}
if (cell->isMarkedBlack()) {
return MarkInfo::BLACK;
}
return MarkInfo::UNMARKED;
}
uintptr_t* GetMarkWordAddress(Cell* cell) {
if (!cell->isTenured()) {
return nullptr;
}
MarkBitmapWord* wordp;
uintptr_t mask;
TenuredChunkBase* chunk = gc::detail::GetCellChunkBase(&cell->asTenured());
chunk->markBits.getMarkWordAndMask(&cell->asTenured(), ColorBit::BlackBit,
&wordp, &mask);
return reinterpret_cast<uintptr_t*>(wordp);
}
uintptr_t GetMarkMask(Cell* cell, uint32_t colorBit) {
MOZ_ASSERT(colorBit == 0 || colorBit == 1);
if (!cell->isTenured()) {
return 0;
}
ColorBit bit = colorBit == 0 ? ColorBit::BlackBit : ColorBit::GrayOrBlackBit;
MarkBitmapWord* wordp;
uintptr_t mask;
TenuredChunkBase* chunk = gc::detail::GetCellChunkBase(&cell->asTenured());
chunk->markBits.getMarkWordAndMask(&cell->asTenured(), bit, &wordp, &mask);
return mask;
}
} // namespace debug
} // namespace js
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