Adding upstream version 115.7.0esr.upstream/115.7.0esrupstream

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

1 files changed, 698 insertions, 0 deletions

diff --git a/js/src/jsapi-tests/testGCWeakCache.cpp b/js/src/jsapi-tests/testGCWeakCache.cpp
new file mode 100644
index 0000000000..de2a7c8636
--- /dev/null
+++ b/js/src/jsapi-tests/testGCWeakCache.cpp
@@ -0,0 +1,698 @@
+/* -*- 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/Policy.h"
+#include "gc/Zone.h"
+#include "js/GCHashTable.h"
+#include "js/RootingAPI.h"
+#include "js/SweepingAPI.h"
+
+#include "jsapi-tests/tests.h"
+
+using namespace js;
+
+// Exercise WeakCache<GCHashSet>.
+BEGIN_TEST(testWeakCacheSet) {
+  // Create two objects tenured and two in the nursery. If zeal is on,
+  // this may fail and we'll get more tenured objects. That's fine:
+  // the test will continue to work, it will just not test as much.
+  JS::RootedObject tenured1(cx, JS_NewPlainObject(cx));
+  JS::RootedObject tenured2(cx, JS_NewPlainObject(cx));
+  JS_GC(cx);
+  JS::RootedObject nursery1(cx, JS_NewPlainObject(cx));
+  JS::RootedObject nursery2(cx, JS_NewPlainObject(cx));
+
+  using ObjectSet =
+      GCHashSet<HeapPtr<JSObject*>, StableCellHasher<HeapPtr<JSObject*>>,
+                SystemAllocPolicy>;
+  using Cache = JS::WeakCache<ObjectSet>;
+  Cache cache(JS::GetObjectZone(tenured1));
+
+  cache.put(tenured1);
+  cache.put(tenured2);
+  cache.put(nursery1);
+  cache.put(nursery2);
+
+  // Verify relocation and that we don't sweep too aggressively.
+  JS_GC(cx);
+  CHECK(cache.has(tenured1));
+  CHECK(cache.has(tenured2));
+  CHECK(cache.has(nursery1));
+  CHECK(cache.has(nursery2));
+
+  // Unroot two entries and verify that they get removed.
+  tenured2 = nursery2 = nullptr;
+  JS_GC(cx);
+  CHECK(cache.has(tenured1));
+  CHECK(cache.has(nursery1));
+  CHECK(cache.count() == 2);
+
+  return true;
+}
+END_TEST(testWeakCacheSet)
+
+// Exercise WeakCache<GCHashMap>.
+BEGIN_TEST(testWeakCacheMap) {
+  // Create two objects tenured and two in the nursery. If zeal is on,
+  // this may fail and we'll get more tenured objects. That's fine:
+  // the test will continue to work, it will just not test as much.
+  JS::RootedObject tenured1(cx, JS_NewPlainObject(cx));
+  JS::RootedObject tenured2(cx, JS_NewPlainObject(cx));
+  JS_GC(cx);
+  JS::RootedObject nursery1(cx, JS_NewPlainObject(cx));
+  JS::RootedObject nursery2(cx, JS_NewPlainObject(cx));
+
+  using ObjectMap = js::GCHashMap<HeapPtr<JSObject*>, uint32_t,
+                                  js::StableCellHasher<HeapPtr<JSObject*>>>;
+  using Cache = JS::WeakCache<ObjectMap>;
+  Cache cache(JS::GetObjectZone(tenured1), cx);
+
+  cache.put(tenured1, 1);
+  cache.put(tenured2, 2);
+  cache.put(nursery1, 3);
+  cache.put(nursery2, 4);
+
+  JS_GC(cx);
+  CHECK(cache.has(tenured1));
+  CHECK(cache.has(tenured2));
+  CHECK(cache.has(nursery1));
+  CHECK(cache.has(nursery2));
+
+  tenured2 = nursery2 = nullptr;
+  JS_GC(cx);
+  CHECK(cache.has(tenured1));
+  CHECK(cache.has(nursery1));
+  CHECK(cache.count() == 2);
+
+  return true;
+}
+END_TEST(testWeakCacheMap)
+
+// Exercise WeakCache<GCVector>.
+BEGIN_TEST(testWeakCacheGCVector) {
+  // Create two objects tenured and two in the nursery. If zeal is on,
+  // this may fail and we'll get more tenured objects. That's fine:
+  // the test will continue to work, it will just not test as much.
+  JS::RootedObject tenured1(cx, JS_NewPlainObject(cx));
+  JS::RootedObject tenured2(cx, JS_NewPlainObject(cx));
+  JS_GC(cx);
+  JS::RootedObject nursery1(cx, JS_NewPlainObject(cx));
+  JS::RootedObject nursery2(cx, JS_NewPlainObject(cx));
+
+  using ObjectVector = JS::WeakCache<GCVector<HeapPtr<JSObject*>>>;
+  ObjectVector cache(JS::GetObjectZone(tenured1), cx);
+
+  CHECK(cache.append(tenured1));
+  CHECK(cache.append(tenured2));
+  CHECK(cache.append(nursery1));
+  CHECK(cache.append(nursery2));
+
+  JS_GC(cx);
+  CHECK(cache.get().length() == 4);
+  CHECK(cache.get()[0] == tenured1);
+  CHECK(cache.get()[1] == tenured2);
+  CHECK(cache.get()[2] == nursery1);
+  CHECK(cache.get()[3] == nursery2);
+
+  tenured2 = nursery2 = nullptr;
+  JS_GC(cx);
+  CHECK(cache.get().length() == 2);
+  CHECK(cache.get()[0] == tenured1);
+  CHECK(cache.get()[1] == nursery1);
+
+  return true;
+}
+END_TEST(testWeakCacheGCVector)
+
+#ifdef JS_GC_ZEAL
+
+// A simple structure that embeds an object pointer. We cripple the hash
+// implementation so that we can test hash table collisions.
+struct ObjectEntry {
+  HeapPtr<JSObject*> obj;
+  explicit ObjectEntry(JSObject* o) : obj(o) {}
+  bool operator==(const ObjectEntry& other) const { return obj == other.obj; }
+  bool traceWeak(JSTracer* trc) {
+    return TraceWeakEdge(trc, &obj, "ObjectEntry::obj");
+  }
+};
+
+namespace js {
+template <>
+struct StableCellHasher<ObjectEntry> {
+  using Key = ObjectEntry;
+  using Lookup = JSObject*;
+
+  static bool maybeGetHash(const Lookup& l, HashNumber* hashOut) {
+    if (!StableCellHasher<JSObject*>::maybeGetHash(l, hashOut)) {
+      return false;
+    }
+    // Reduce hash code to single bit to generate hash collisions.
+    *hashOut &= 0x1;
+    return true;
+  }
+  static bool ensureHash(const Lookup& l, HashNumber* hashOut) {
+    if (!StableCellHasher<JSObject*>::ensureHash(l, hashOut)) {
+      return false;
+    }
+    // Reduce hash code to single bit to generate hash collisions.
+    *hashOut &= 0x1;
+    return true;
+  }
+  static HashNumber hash(const Lookup& l) {
+    // Reduce hash code to single bit to generate hash collisions.
+    return StableCellHasher<HeapPtr<JSObject*>>::hash(l) & 0x1;
+  }
+  static bool match(const Key& k, const Lookup& l) {
+    return StableCellHasher<HeapPtr<JSObject*>>::match(k.obj, l);
+  }
+};
+}  // namespace js
+
+// A structure that contains a pointer to a JSObject but is keyed based on an
+// integer. This lets us test replacing dying entries in a set.
+struct NumberAndObjectEntry {
+  uint32_t number;
+  HeapPtr<JSObject*> obj;
+
+  NumberAndObjectEntry(uint32_t n, JSObject* o) : number(n), obj(o) {}
+  bool operator==(const NumberAndObjectEntry& other) const {
+    return number == other.number && obj == other.obj;
+  }
+  bool traceWeak(JSTracer* trc) {
+    return TraceWeakEdge(trc, &obj, "NumberAndObjectEntry::obj");
+  }
+};
+
+struct NumberAndObjectLookup {
+  uint32_t number;
+  HeapPtr<JSObject*> obj;
+
+  NumberAndObjectLookup(uint32_t n, JSObject* o) : number(n), obj(o) {}
+  MOZ_IMPLICIT NumberAndObjectLookup(const NumberAndObjectEntry& entry)
+      : number(entry.number), obj(entry.obj) {}
+};
+
+namespace js {
+template <>
+struct StableCellHasher<NumberAndObjectEntry> {
+  using Key = NumberAndObjectEntry;
+  using Lookup = NumberAndObjectLookup;
+
+  static bool maybeGetHash(const Lookup& l, HashNumber* hashOut) {
+    if (!StableCellHasher<JSObject*>::maybeGetHash(l.obj, hashOut)) {
+      return false;
+    }
+    *hashOut ^= l.number;
+    return true;
+  }
+  static bool ensureHash(const Lookup& l, HashNumber* hashOut) {
+    if (!StableCellHasher<JSObject*>::ensureHash(l.obj, hashOut)) {
+      return false;
+    }
+    *hashOut ^= l.number;
+    return true;
+  }
+  static HashNumber hash(const Lookup& l) {
+    return StableCellHasher<HeapPtr<JSObject*>>::hash(l.obj) ^ l.number;
+  }
+  static bool match(const Key& k, const Lookup& l) {
+    return k.number == l.number &&
+           StableCellHasher<HeapPtr<JSObject*>>::match(k.obj, l.obj);
+  }
+};
+}  // namespace js
+
+BEGIN_TEST(testIncrementalWeakCacheSweeping) {
+  AutoLeaveZeal nozeal(cx);
+
+  JS_SetGCParameter(cx, JSGC_INCREMENTAL_GC_ENABLED, true);
+  JS_SetGCZeal(cx, 17, 1000000);
+
+  CHECK(TestSet());
+  CHECK(TestMap());
+  CHECK(TestReplaceDyingInSet());
+  CHECK(TestReplaceDyingInMap());
+  CHECK(TestUniqueIDLookups());
+
+  JS_SetGCZeal(cx, 0, 0);
+  JS_SetGCParameter(cx, JSGC_INCREMENTAL_GC_ENABLED, false);
+
+  return true;
+}
+
+template <typename Cache>
+bool GCUntilCacheSweep(JSContext* cx, const Cache& cache) {
+  CHECK(!IsIncrementalGCInProgress(cx));
+
+  JS::Zone* zone = JS::GetObjectZone(global);
+  JS::PrepareZoneForGC(cx, zone);
+  SliceBudget budget(WorkBudget(1));
+  cx->runtime()->gc.startDebugGC(JS::GCOptions::Normal, budget);
+
+  CHECK(IsIncrementalGCInProgress(cx));
+  CHECK(zone->isGCSweeping());
+  CHECK(cache.needsIncrementalBarrier());
+
+  return true;
+}
+
+template <typename Cache>
+bool SweepCacheAndFinishGC(JSContext* cx, const Cache& cache) {
+  CHECK(IsIncrementalGCInProgress(cx));
+
+  PrepareForIncrementalGC(cx);
+  IncrementalGCSlice(cx, JS::GCReason::API, SliceBudget::unlimited());
+
+  JS::Zone* zone = JS::GetObjectZone(global);
+  CHECK(!IsIncrementalGCInProgress(cx));
+  CHECK(!zone->isCollecting());
+  CHECK(!cache.needsIncrementalBarrier());
+
+  return true;
+}
+
+bool TestSet() {
+  using ObjectSet =
+      GCHashSet<HeapPtr<JSObject*>, StableCellHasher<HeapPtr<JSObject*>>,
+                TempAllocPolicy>;
+  using Cache = JS::WeakCache<ObjectSet>;
+  Cache cache(JS::GetObjectZone(global), cx);
+
+  // Sweep empty cache.
+
+  CHECK(cache.empty());
+  JS_GC(cx);
+  CHECK(cache.empty());
+
+  // Add an entry while sweeping.
+
+  JS::RootedObject obj1(cx, JS_NewPlainObject(cx));
+  JS::RootedObject obj2(cx, JS_NewPlainObject(cx));
+  JS::RootedObject obj3(cx, JS_NewPlainObject(cx));
+  JS::RootedObject obj4(cx, JS_NewPlainObject(cx));
+  CHECK(obj1);
+  CHECK(obj2);
+  CHECK(obj3);
+  CHECK(obj4);
+
+  CHECK(!cache.has(obj1));
+  CHECK(cache.put(obj1));
+  CHECK(cache.count() == 1);
+  CHECK(cache.has(obj1));
+  CHECK(*cache.lookup(obj1) == obj1);
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  CHECK(!cache.has(obj2));
+  CHECK(cache.put(obj2));
+  CHECK(cache.has(obj2));
+  CHECK(*cache.lookup(obj2) == obj2);
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 2);
+  CHECK(cache.has(obj1));
+  CHECK(cache.has(obj2));
+
+  // Test dying entries are not found while sweeping.
+
+  CHECK(cache.put(obj3));
+  CHECK(cache.put(obj4));
+  void* old3 = obj3;
+  void* old4 = obj4;
+  obj3 = obj4 = nullptr;
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  CHECK(cache.has(obj1));
+  CHECK(cache.has(obj2));
+  CHECK(!cache.has(static_cast<JSObject*>(old3)));
+  CHECK(!cache.has(static_cast<JSObject*>(old4)));
+
+  size_t count = 0;
+  for (auto r = cache.all(); !r.empty(); r.popFront()) {
+    CHECK(r.front() == obj1 || r.front() == obj2);
+    count++;
+  }
+  CHECK(count == 2);
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 2);
+
+  // Test lookupForAdd while sweeping.
+
+  obj3 = JS_NewPlainObject(cx);
+  obj4 = JS_NewPlainObject(cx);
+  CHECK(obj3);
+  CHECK(obj4);
+
+  CHECK(cache.lookupForAdd(obj1));
+  CHECK(*cache.lookupForAdd(obj1) == obj1);
+
+  auto addp = cache.lookupForAdd(obj3);
+  CHECK(!addp);
+  CHECK(cache.add(addp, obj3));
+  CHECK(cache.has(obj3));
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  addp = cache.lookupForAdd(obj4);
+  CHECK(!addp);
+  CHECK(cache.add(addp, obj4));
+  CHECK(cache.has(obj4));
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 4);
+  CHECK(cache.has(obj3));
+  CHECK(cache.has(obj4));
+
+  // Test remove while sweeping.
+
+  cache.remove(obj3);
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  cache.remove(obj4);
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 2);
+  CHECK(!cache.has(obj3));
+  CHECK(!cache.has(obj4));
+
+  // Test putNew while sweeping.
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  CHECK(cache.putNew(obj3));
+  CHECK(cache.putNew(obj4, obj4));
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 4);
+  CHECK(cache.has(obj3));
+  CHECK(cache.has(obj4));
+
+  cache.clear();
+
+  return true;
+}
+
+bool TestMap() {
+  using ObjectMap =
+      GCHashMap<HeapPtr<JSObject*>, uint32_t,
+                StableCellHasher<HeapPtr<JSObject*>>, TempAllocPolicy>;
+  using Cache = JS::WeakCache<ObjectMap>;
+  Cache cache(JS::GetObjectZone(global), cx);
+
+  // Sweep empty cache.
+
+  CHECK(cache.empty());
+  JS_GC(cx);
+  CHECK(cache.empty());
+
+  // Add an entry while sweeping.
+
+  JS::RootedObject obj1(cx, JS_NewPlainObject(cx));
+  JS::RootedObject obj2(cx, JS_NewPlainObject(cx));
+  JS::RootedObject obj3(cx, JS_NewPlainObject(cx));
+  JS::RootedObject obj4(cx, JS_NewPlainObject(cx));
+  CHECK(obj1);
+  CHECK(obj2);
+  CHECK(obj3);
+  CHECK(obj4);
+
+  CHECK(!cache.has(obj1));
+  CHECK(cache.put(obj1, 1));
+  CHECK(cache.count() == 1);
+  CHECK(cache.has(obj1));
+  CHECK(cache.lookup(obj1)->key() == obj1);
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+  CHECK(cache.needsIncrementalBarrier());
+
+  CHECK(!cache.has(obj2));
+  CHECK(cache.put(obj2, 2));
+  CHECK(cache.has(obj2));
+  CHECK(cache.lookup(obj2)->key() == obj2);
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+  CHECK(!cache.needsIncrementalBarrier());
+
+  CHECK(cache.count() == 2);
+  CHECK(cache.has(obj1));
+  CHECK(cache.has(obj2));
+
+  // Test iteration.
+
+  CHECK(cache.put(obj3, 3));
+  CHECK(cache.put(obj4, 4));
+  void* old3 = obj3;
+  void* old4 = obj4;
+  obj3 = obj4 = nullptr;
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  CHECK(cache.has(obj1));
+  CHECK(cache.has(obj2));
+  CHECK(!cache.has(static_cast<JSObject*>(old3)));
+  CHECK(!cache.has(static_cast<JSObject*>(old4)));
+
+  size_t count = 0;
+  for (auto r = cache.all(); !r.empty(); r.popFront()) {
+    CHECK(r.front().key() == obj1 || r.front().key() == obj2);
+    count++;
+  }
+  CHECK(count == 2);
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 2);
+
+  // Test lookupForAdd while sweeping.
+
+  obj3 = JS_NewPlainObject(cx);
+  obj4 = JS_NewPlainObject(cx);
+  CHECK(obj3);
+  CHECK(obj4);
+
+  CHECK(cache.lookupForAdd(obj1));
+  CHECK(cache.lookupForAdd(obj1)->key() == obj1);
+
+  auto addp = cache.lookupForAdd(obj3);
+  CHECK(!addp);
+  CHECK(cache.add(addp, obj3, 3));
+  CHECK(cache.has(obj3));
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  addp = cache.lookupForAdd(obj4);
+  CHECK(!addp);
+  CHECK(cache.add(addp, obj4, 4));
+  CHECK(cache.has(obj4));
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 4);
+  CHECK(cache.has(obj3));
+  CHECK(cache.has(obj4));
+
+  // Test remove while sweeping.
+
+  cache.remove(obj3);
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  cache.remove(obj4);
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 2);
+  CHECK(!cache.has(obj3));
+  CHECK(!cache.has(obj4));
+
+  // Test putNew while sweeping.
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  CHECK(cache.putNew(obj3, 3));
+  CHECK(cache.putNew(obj4, 4));
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 4);
+  CHECK(cache.has(obj3));
+  CHECK(cache.has(obj4));
+
+  cache.clear();
+
+  return true;
+}
+
+bool TestReplaceDyingInSet() {
+  // Test replacing dying entries with ones that have the same key using the
+  // various APIs.
+
+  using Cache = JS::WeakCache<
+      GCHashSet<NumberAndObjectEntry, StableCellHasher<NumberAndObjectEntry>,
+                TempAllocPolicy>>;
+  Cache cache(JS::GetObjectZone(global), cx);
+
+  RootedObject value1(cx, JS_NewPlainObject(cx));
+  RootedObject value2(cx, JS_NewPlainObject(cx));
+  CHECK(value1);
+  CHECK(value2);
+
+  CHECK(cache.put(NumberAndObjectEntry(1, value1)));
+  CHECK(cache.put(NumberAndObjectEntry(2, value2)));
+  CHECK(cache.put(NumberAndObjectEntry(3, value2)));
+  CHECK(cache.put(NumberAndObjectEntry(4, value2)));
+  CHECK(cache.put(NumberAndObjectEntry(5, value2)));
+  CHECK(cache.put(NumberAndObjectEntry(6, value2)));
+  CHECK(cache.put(NumberAndObjectEntry(7, value2)));
+
+  value2 = nullptr;
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  CHECK(!cache.has(NumberAndObjectLookup(2, value1)));
+  CHECK(!cache.has(NumberAndObjectLookup(3, value1)));
+  CHECK(!cache.has(NumberAndObjectLookup(4, value1)));
+  CHECK(!cache.has(NumberAndObjectLookup(5, value1)));
+  CHECK(!cache.has(NumberAndObjectLookup(6, value1)));
+
+  auto ptr = cache.lookupForAdd(NumberAndObjectLookup(2, value1));
+  CHECK(!ptr);
+  CHECK(cache.add(ptr, NumberAndObjectEntry(2, value1)));
+
+  auto ptr2 = cache.lookupForAdd(NumberAndObjectLookup(3, value1));
+  CHECK(!ptr2);
+  CHECK(cache.relookupOrAdd(ptr2, NumberAndObjectLookup(3, value1),
+                            NumberAndObjectEntry(3, value1)));
+
+  CHECK(cache.put(NumberAndObjectEntry(4, value1)));
+  CHECK(cache.putNew(NumberAndObjectEntry(5, value1)));
+
+  CHECK(cache.putNew(NumberAndObjectLookup(6, value1),
+                     NumberAndObjectEntry(6, value1)));
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 6);
+  CHECK(cache.has(NumberAndObjectLookup(1, value1)));
+  CHECK(cache.has(NumberAndObjectLookup(2, value1)));
+  CHECK(cache.has(NumberAndObjectLookup(3, value1)));
+  CHECK(cache.has(NumberAndObjectLookup(4, value1)));
+  CHECK(cache.has(NumberAndObjectLookup(5, value1)));
+  CHECK(cache.has(NumberAndObjectLookup(6, value1)));
+
+  return true;
+}
+
+bool TestReplaceDyingInMap() {
+  // Test replacing dying entries with ones that have the same key using the
+  // various APIs.
+
+  using Cache =
+      JS::WeakCache<GCHashMap<uint32_t, HeapPtr<JSObject*>,
+                              DefaultHasher<uint32_t>, TempAllocPolicy>>;
+  Cache cache(JS::GetObjectZone(global), cx);
+
+  RootedObject value1(cx, JS_NewPlainObject(cx));
+  RootedObject value2(cx, JS_NewPlainObject(cx));
+  CHECK(value1);
+  CHECK(value2);
+
+  CHECK(cache.put(1, value1));
+  CHECK(cache.put(2, value2));
+  CHECK(cache.put(3, value2));
+  CHECK(cache.put(4, value2));
+  CHECK(cache.put(5, value2));
+  CHECK(cache.put(6, value2));
+
+  value2 = nullptr;
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  CHECK(!cache.has(2));
+  CHECK(!cache.has(3));
+  CHECK(!cache.has(4));
+  CHECK(!cache.has(5));
+  CHECK(!cache.has(6));
+
+  auto ptr = cache.lookupForAdd(2);
+  CHECK(!ptr);
+  CHECK(cache.add(ptr, 2, value1));
+
+  auto ptr2 = cache.lookupForAdd(3);
+  CHECK(!ptr2);
+  CHECK(cache.add(ptr2, 3, HeapPtr<JSObject*>()));
+
+  auto ptr3 = cache.lookupForAdd(4);
+  CHECK(!ptr3);
+  CHECK(cache.relookupOrAdd(ptr3, 4, value1));
+
+  CHECK(cache.put(5, value1));
+  CHECK(cache.putNew(6, value1));
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == 6);
+  CHECK(cache.lookup(1)->value() == value1);
+  CHECK(cache.lookup(2)->value() == value1);
+  CHECK(cache.lookup(3)->value() == nullptr);
+  CHECK(cache.lookup(4)->value() == value1);
+  CHECK(cache.lookup(5)->value() == value1);
+  CHECK(cache.lookup(6)->value() == value1);
+
+  return true;
+}
+
+bool TestUniqueIDLookups() {
+  // Test hash table lookups during incremental sweeping where the hash is
+  // generated based on a unique ID. The problem is that the unique ID table
+  // will have already been swept by this point so looking up a dead pointer
+  // in the table will fail. This lookup happens if we try to match a live key
+  // against a dead table entry with the same hash code.
+
+  const size_t DeadFactor = 3;
+  const size_t ObjectCount = 100;
+
+  using Cache = JS::WeakCache<
+      GCHashSet<ObjectEntry, StableCellHasher<ObjectEntry>, TempAllocPolicy>>;
+  Cache cache(JS::GetObjectZone(global), cx);
+
+  Rooted<GCVector<JSObject*, 0, SystemAllocPolicy>> liveObjects(cx);
+
+  for (size_t j = 0; j < ObjectCount; j++) {
+    JSObject* obj = JS_NewPlainObject(cx);
+    CHECK(obj);
+    CHECK(cache.put(obj));
+    if (j % DeadFactor == 0) {
+      CHECK(liveObjects.get().append(obj));
+    }
+  }
+
+  CHECK(cache.count() == ObjectCount);
+
+  CHECK(GCUntilCacheSweep(cx, cache));
+
+  for (size_t j = 0; j < liveObjects.length(); j++) {
+    CHECK(cache.has(liveObjects[j]));
+  }
+
+  CHECK(SweepCacheAndFinishGC(cx, cache));
+
+  CHECK(cache.count() == liveObjects.length());
+
+  return true;
+}
+
+END_TEST(testIncrementalWeakCacheSweeping)
+
+#endif  // defined JS_GC_ZEAL