/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- * vim: set ts=8 sts=2 et sw=2 tw=80: * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #ifndef gc_WeakMap_inl_h #define gc_WeakMap_inl_h #include "gc/WeakMap.h" #include "mozilla/DebugOnly.h" #include "mozilla/Maybe.h" #include #include #include "gc/GCLock.h" #include "gc/Marking.h" #include "gc/Zone.h" #include "js/TraceKind.h" #include "vm/JSContext.h" #include "gc/StableCellHasher-inl.h" namespace js { namespace gc::detail { // Return the effective cell color given the current marking state. // This must be kept in sync with ShouldMark in Marking.cpp. template static CellColor GetEffectiveColor(GCMarker* marker, const T& item) { Cell* cell = ToMarkable(item); if (!cell->isTenured()) { return CellColor::Black; } const TenuredCell& t = cell->asTenured(); if (!t.zoneFromAnyThread()->shouldMarkInZone(marker->markColor())) { return CellColor::Black; } MOZ_ASSERT(t.runtimeFromAnyThread() == marker->runtime()); return t.color(); } // Only objects have delegates, so default to returning nullptr. Note that some // compilation units will only ever use the object version. static MOZ_MAYBE_UNUSED JSObject* GetDelegateInternal(gc::Cell* key) { return nullptr; } static MOZ_MAYBE_UNUSED JSObject* GetDelegateInternal(JSObject* key) { JSObject* delegate = UncheckedUnwrapWithoutExpose(key); return (key == delegate) ? nullptr : delegate; } static MOZ_MAYBE_UNUSED JSObject* GetDelegateInternal(const Value& key) { if (key.isObject()) { return GetDelegateInternal(&key.toObject()); } return nullptr; } // Use a helper function to do overload resolution to handle cases like // Heap: find everything that is convertible to JSObject* (and // avoid calling barriers). template static inline JSObject* GetDelegate(const T& key) { return GetDelegateInternal(key); } template <> inline JSObject* GetDelegate(gc::Cell* const&) = delete; } // namespace gc::detail // Weakmap entry -> value edges are only visible if the map is traced, which // only happens if the map zone is being collected. If the map and the value // were in different zones, then we could have a case where the map zone is not // collecting but the value zone is, and incorrectly free a value that is // reachable solely through weakmaps. template void WeakMap::assertMapIsSameZoneWithValue(const V& v) { #ifdef DEBUG gc::Cell* cell = gc::ToMarkable(v); if (cell) { Zone* cellZone = cell->zoneFromAnyThread(); MOZ_ASSERT(zone() == cellZone || cellZone->isAtomsZone()); } #endif } template WeakMap::WeakMap(JSContext* cx, JSObject* memOf) : WeakMap(cx->zone(), memOf) {} template WeakMap::WeakMap(JS::Zone* zone, JSObject* memOf) : Base(zone), WeakMapBase(memOf, zone) { using ElemType = typename K::ElementType; // The object's TraceKind needs to be added to CC graph if this object is // used as a WeakMap key, otherwise the key is considered to be pointed from // somewhere unknown, and results in leaking the subgraph which contains the // key. See the comments in NoteWeakMapsTracer::trace for more details. if constexpr (std::is_pointer_v) { using NonPtrType = std::remove_pointer_t; static_assert(JS::IsCCTraceKind(NonPtrType::TraceKind), "Object's TraceKind should be added to CC graph."); } zone->gcWeakMapList().insertFront(this); if (zone->gcState() > Zone::Prepare) { setMapColor(CellColor::Black); } } // If the entry is live, ensure its key and value are marked. Also make sure the // key is at least as marked as min(map, delegate), so it cannot get discarded // and then recreated by rewrapping the delegate. // // Optionally adds edges to the ephemeron edges table for any keys (or // delegates) where future changes to their mark color would require marking the // value (or the key). template bool WeakMap::markEntry(GCMarker* marker, gc::CellColor mapColor, K& key, V& value, bool populateWeakKeysTable) { #ifdef DEBUG MOZ_ASSERT(IsMarked(mapColor)); if (marker->isParallelMarking()) { marker->runtime()->gc.assertCurrentThreadHasLockedGC(); } #endif bool marked = false; CellColor markColor = AsCellColor(marker->markColor()); CellColor keyColor = gc::detail::GetEffectiveColor(marker, key); JSObject* delegate = gc::detail::GetDelegate(key); JSTracer* trc = marker->tracer(); gc::Cell* keyCell = gc::ToMarkable(key); MOZ_ASSERT(keyCell); if (delegate) { CellColor delegateColor = gc::detail::GetEffectiveColor(marker, delegate); // The key needs to stay alive while both the delegate and map are live. CellColor proxyPreserveColor = std::min(delegateColor, mapColor); if (keyColor < proxyPreserveColor) { MOZ_ASSERT(markColor >= proxyPreserveColor); if (markColor == proxyPreserveColor) { TraceWeakMapKeyEdge(trc, zone(), &key, "proxy-preserved WeakMap entry key"); MOZ_ASSERT(keyCell->color() >= proxyPreserveColor); marked = true; keyColor = proxyPreserveColor; } } } gc::Cell* cellValue = gc::ToMarkable(value); if (IsMarked(keyColor)) { if (cellValue) { CellColor targetColor = std::min(mapColor, keyColor); CellColor valueColor = gc::detail::GetEffectiveColor(marker, cellValue); if (valueColor < targetColor) { MOZ_ASSERT(markColor >= targetColor); if (markColor == targetColor) { TraceEdge(trc, &value, "WeakMap entry value"); MOZ_ASSERT(cellValue->color() >= targetColor); marked = true; } } } } if (populateWeakKeysTable) { // Note that delegateColor >= keyColor because marking a key marks its // delegate, so we only need to check whether keyColor < mapColor to tell // this. if (keyColor < mapColor) { MOZ_ASSERT(trc->weakMapAction() == JS::WeakMapTraceAction::Expand); // The final color of the key is not yet known. Record this weakmap and // the lookup key in the list of weak keys. If the key has a delegate, // then the lookup key is the delegate (because marking the key will end // up marking the delegate and thereby mark the entry.) gc::TenuredCell* tenuredValue = nullptr; if (cellValue && cellValue->isTenured()) { tenuredValue = &cellValue->asTenured(); } if (!this->addImplicitEdges(AsMarkColor(mapColor), keyCell, delegate, tenuredValue)) { marker->abortLinearWeakMarking(); } } } return marked; } template void WeakMap::trace(JSTracer* trc) { MOZ_ASSERT(isInList()); TraceNullableEdge(trc, &memberOf, "WeakMap owner"); if (trc->isMarkingTracer()) { MOZ_ASSERT(trc->weakMapAction() == JS::WeakMapTraceAction::Expand); GCMarker* marker = GCMarker::fromTracer(trc); if (markMap(marker->markColor())) { (void)markEntries(marker); } return; } if (trc->weakMapAction() == JS::WeakMapTraceAction::Skip) { return; } // Trace keys only if weakMapAction() says to. if (trc->weakMapAction() == JS::WeakMapTraceAction::TraceKeysAndValues) { for (Enum e(*this); !e.empty(); e.popFront()) { TraceWeakMapKeyEdge(trc, zone(), &e.front().mutableKey(), "WeakMap entry key"); } } // Always trace all values (unless weakMapAction() is Skip). for (Range r = Base::all(); !r.empty(); r.popFront()) { TraceEdge(trc, &r.front().value(), "WeakMap entry value"); } } template bool WeakMap::markEntries(GCMarker* marker) { // This method is called whenever the map's mark color changes. Mark values // (and keys with delegates) as required for the new color and populate the // ephemeron edges if we're in incremental marking mode. // Lock during parallel marking to synchronize updates to the ephemeron edges // table. mozilla::Maybe lock; if (marker->isParallelMarking()) { lock.emplace(marker->runtime()); } MOZ_ASSERT(IsMarked(mapColor())); bool markedAny = false; // If we don't populate the weak keys table now then we do it when we enter // weak marking mode. bool populateWeakKeysTable = marker->incrementalWeakMapMarkingEnabled || marker->isWeakMarking(); // Read the atomic color into a local variable so the compiler doesn't load it // every time. gc::CellColor mapColor = this->mapColor(); for (Enum e(*this); !e.empty(); e.popFront()) { if (markEntry(marker, mapColor, e.front().mutableKey(), e.front().value(), populateWeakKeysTable)) { markedAny = true; } } return markedAny; } template void WeakMap::traceWeakEdges(JSTracer* trc) { // Remove all entries whose keys remain unmarked. for (Enum e(*this); !e.empty(); e.popFront()) { if (!TraceWeakEdge(trc, &e.front().mutableKey(), "WeakMap key")) { e.removeFront(); } } #if DEBUG // Once we've swept, all remaining edges should stay within the known-live // part of the graph. assertEntriesNotAboutToBeFinalized(); #endif } // memberOf can be nullptr, which means that the map is not part of a JSObject. template void WeakMap::traceMappings(WeakMapTracer* tracer) { for (Range r = Base::all(); !r.empty(); r.popFront()) { gc::Cell* key = gc::ToMarkable(r.front().key()); gc::Cell* value = gc::ToMarkable(r.front().value()); if (key && value) { tracer->trace(memberOf, JS::GCCellPtr(r.front().key().get()), JS::GCCellPtr(r.front().value().get())); } } } template bool WeakMap::findSweepGroupEdges() { // For weakmap keys with delegates in a different zone, add a zone edge to // ensure that the delegate zone finishes marking before the key zone. JS::AutoSuppressGCAnalysis nogc; for (Range r = all(); !r.empty(); r.popFront()) { const K& key = r.front().key(); // If the key type doesn't have delegates, then this will always return // nullptr and the optimizer can remove the entire body of this function. JSObject* delegate = gc::detail::GetDelegate(key); if (!delegate) { continue; } // Marking a WeakMap key's delegate will mark the key, so process the // delegate zone no later than the key zone. Zone* delegateZone = delegate->zone(); gc::Cell* keyCell = gc::ToMarkable(key); MOZ_ASSERT(keyCell); Zone* keyZone = keyCell->zone(); if (delegateZone != keyZone && delegateZone->isGCMarking() && keyZone->isGCMarking()) { if (!delegateZone->addSweepGroupEdgeTo(keyZone)) { return false; } } } return true; } template size_t WeakMap::sizeOfIncludingThis(mozilla::MallocSizeOf mallocSizeOf) { return mallocSizeOf(this) + shallowSizeOfExcludingThis(mallocSizeOf); } #if DEBUG template void WeakMap::assertEntriesNotAboutToBeFinalized() { for (Range r = Base::all(); !r.empty(); r.popFront()) { UnbarrieredKey k = r.front().key(); MOZ_ASSERT(!gc::IsAboutToBeFinalizedUnbarriered(k)); JSObject* delegate = gc::detail::GetDelegate(k); if (delegate) { MOZ_ASSERT(!gc::IsAboutToBeFinalizedUnbarriered(delegate), "weakmap marking depends on a key tracing its delegate"); } MOZ_ASSERT(!gc::IsAboutToBeFinalized(r.front().value())); } } #endif #ifdef JS_GC_ZEAL template bool WeakMap::checkMarking() const { bool ok = true; for (Range r = Base::all(); !r.empty(); r.popFront()) { gc::Cell* key = gc::ToMarkable(r.front().key()); gc::Cell* value = gc::ToMarkable(r.front().value()); if (key && value) { if (!gc::CheckWeakMapEntryMarking(this, key, value)) { ok = false; } } } return ok; } #endif inline HashNumber GetHash(JS::Symbol* sym) { return sym->hash(); } inline bool HashMatch(JS::Symbol* key, JS::Symbol* lookup) { return key->hash() == lookup->hash(); } } // namespace js #endif /* gc_WeakMap_inl_h */