// Copyright 2013 the V8 project authors. All rights reserved. // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following // disclaimer in the documentation and/or other materials provided // with the distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #include "global-handles.h" #include "cctest.h" using namespace v8::internal; using v8::UniqueId; static List skippable_objects; static List can_skip_called_objects; static bool CanSkipCallback(Heap* heap, Object** pointer) { can_skip_called_objects.Add(*pointer); return skippable_objects.Contains(*pointer); } static void ResetCanSkipData() { skippable_objects.Clear(); can_skip_called_objects.Clear(); } class TestRetainedObjectInfo : public v8::RetainedObjectInfo { public: TestRetainedObjectInfo() : has_been_disposed_(false) {} bool has_been_disposed() { return has_been_disposed_; } virtual void Dispose() { ASSERT(!has_been_disposed_); has_been_disposed_ = true; } virtual bool IsEquivalent(v8::RetainedObjectInfo* other) { return other == this; } virtual intptr_t GetHash() { return 0; } virtual const char* GetLabel() { return "whatever"; } private: bool has_been_disposed_; }; class TestObjectVisitor : public ObjectVisitor { public: virtual void VisitPointers(Object** start, Object** end) { for (Object** o = start; o != end; ++o) visited.Add(*o); } List visited; }; TEST(IterateObjectGroupsOldApi) { CcTest::InitializeVM(); GlobalHandles* global_handles = CcTest::i_isolate()->global_handles(); Heap* heap = CcTest::heap(); v8::HandleScope handle_scope(CcTest::isolate()); Handle g1s1 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g1s2 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g2s1 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g2s2 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); TestRetainedObjectInfo info1; TestRetainedObjectInfo info2; { Object** g1_objects[] = { g1s1.location(), g1s2.location() }; Object** g2_objects[] = { g2s1.location(), g2s2.location() }; global_handles->AddObjectGroup(g1_objects, 2, &info1); global_handles->AddObjectGroup(g2_objects, 2, &info2); } // Iterate the object groups. First skip all. { ResetCanSkipData(); skippable_objects.Add(*g1s1.location()); skippable_objects.Add(*g1s2.location()); skippable_objects.Add(*g2s1.location()); skippable_objects.Add(*g2s2.location()); TestObjectVisitor visitor; global_handles->IterateObjectGroups(&visitor, &CanSkipCallback); // CanSkipCallback was called for all objects. ASSERT(can_skip_called_objects.length() == 4); ASSERT(can_skip_called_objects.Contains(*g1s1.location())); ASSERT(can_skip_called_objects.Contains(*g1s2.location())); ASSERT(can_skip_called_objects.Contains(*g2s1.location())); ASSERT(can_skip_called_objects.Contains(*g2s2.location())); // Nothing was visited. ASSERT(visitor.visited.length() == 0); ASSERT(!info1.has_been_disposed()); ASSERT(!info2.has_been_disposed()); } // Iterate again, now only skip the second object group. { ResetCanSkipData(); // The first grough should still be visited, since only one object is // skipped. skippable_objects.Add(*g1s1.location()); skippable_objects.Add(*g2s1.location()); skippable_objects.Add(*g2s2.location()); TestObjectVisitor visitor; global_handles->IterateObjectGroups(&visitor, &CanSkipCallback); // CanSkipCallback was called for all objects. ASSERT(can_skip_called_objects.length() == 3 || can_skip_called_objects.length() == 4); ASSERT(can_skip_called_objects.Contains(*g1s2.location())); ASSERT(can_skip_called_objects.Contains(*g2s1.location())); ASSERT(can_skip_called_objects.Contains(*g2s2.location())); // The first group was visited. ASSERT(visitor.visited.length() == 2); ASSERT(visitor.visited.Contains(*g1s1.location())); ASSERT(visitor.visited.Contains(*g1s2.location())); ASSERT(info1.has_been_disposed()); ASSERT(!info2.has_been_disposed()); } // Iterate again, don't skip anything. { ResetCanSkipData(); TestObjectVisitor visitor; global_handles->IterateObjectGroups(&visitor, &CanSkipCallback); // CanSkipCallback was called for all objects. ASSERT(can_skip_called_objects.length() == 1); ASSERT(can_skip_called_objects.Contains(*g2s1.location()) || can_skip_called_objects.Contains(*g2s2.location())); // The second group was visited. ASSERT(visitor.visited.length() == 2); ASSERT(visitor.visited.Contains(*g2s1.location())); ASSERT(visitor.visited.Contains(*g2s2.location())); ASSERT(info2.has_been_disposed()); } } TEST(IterateObjectGroups) { CcTest::InitializeVM(); GlobalHandles* global_handles = CcTest::i_isolate()->global_handles(); Heap* heap = CcTest::heap(); v8::HandleScope handle_scope(CcTest::isolate()); Handle g1s1 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g1s2 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g2s1 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g2s2 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); TestRetainedObjectInfo info1; TestRetainedObjectInfo info2; global_handles->SetObjectGroupId(g2s1.location(), UniqueId(2)); global_handles->SetObjectGroupId(g2s2.location(), UniqueId(2)); global_handles->SetRetainedObjectInfo(UniqueId(2), &info2); global_handles->SetObjectGroupId(g1s1.location(), UniqueId(1)); global_handles->SetObjectGroupId(g1s2.location(), UniqueId(1)); global_handles->SetRetainedObjectInfo(UniqueId(1), &info1); // Iterate the object groups. First skip all. { ResetCanSkipData(); skippable_objects.Add(*g1s1.location()); skippable_objects.Add(*g1s2.location()); skippable_objects.Add(*g2s1.location()); skippable_objects.Add(*g2s2.location()); TestObjectVisitor visitor; global_handles->IterateObjectGroups(&visitor, &CanSkipCallback); // CanSkipCallback was called for all objects. ASSERT(can_skip_called_objects.length() == 4); ASSERT(can_skip_called_objects.Contains(*g1s1.location())); ASSERT(can_skip_called_objects.Contains(*g1s2.location())); ASSERT(can_skip_called_objects.Contains(*g2s1.location())); ASSERT(can_skip_called_objects.Contains(*g2s2.location())); // Nothing was visited. ASSERT(visitor.visited.length() == 0); ASSERT(!info1.has_been_disposed()); ASSERT(!info2.has_been_disposed()); } // Iterate again, now only skip the second object group. { ResetCanSkipData(); // The first grough should still be visited, since only one object is // skipped. skippable_objects.Add(*g1s1.location()); skippable_objects.Add(*g2s1.location()); skippable_objects.Add(*g2s2.location()); TestObjectVisitor visitor; global_handles->IterateObjectGroups(&visitor, &CanSkipCallback); // CanSkipCallback was called for all objects. ASSERT(can_skip_called_objects.length() == 3 || can_skip_called_objects.length() == 4); ASSERT(can_skip_called_objects.Contains(*g1s2.location())); ASSERT(can_skip_called_objects.Contains(*g2s1.location())); ASSERT(can_skip_called_objects.Contains(*g2s2.location())); // The first group was visited. ASSERT(visitor.visited.length() == 2); ASSERT(visitor.visited.Contains(*g1s1.location())); ASSERT(visitor.visited.Contains(*g1s2.location())); ASSERT(info1.has_been_disposed()); ASSERT(!info2.has_been_disposed()); } // Iterate again, don't skip anything. { ResetCanSkipData(); TestObjectVisitor visitor; global_handles->IterateObjectGroups(&visitor, &CanSkipCallback); // CanSkipCallback was called for all objects. ASSERT(can_skip_called_objects.length() == 1); ASSERT(can_skip_called_objects.Contains(*g2s1.location()) || can_skip_called_objects.Contains(*g2s2.location())); // The second group was visited. ASSERT(visitor.visited.length() == 2); ASSERT(visitor.visited.Contains(*g2s1.location())); ASSERT(visitor.visited.Contains(*g2s2.location())); ASSERT(info2.has_been_disposed()); } } TEST(ImplicitReferences) { CcTest::InitializeVM(); GlobalHandles* global_handles = CcTest::i_isolate()->global_handles(); Heap* heap = CcTest::heap(); v8::HandleScope handle_scope(CcTest::isolate()); Handle g1s1 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g1c1 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g1c2 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g2s1 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g2s2 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); Handle g2c1 = global_handles->Create(heap->AllocateFixedArray(1)->ToObjectChecked()); global_handles->SetObjectGroupId(g1s1.location(), UniqueId(1)); global_handles->SetObjectGroupId(g2s1.location(), UniqueId(2)); global_handles->SetObjectGroupId(g2s2.location(), UniqueId(2)); global_handles->SetReferenceFromGroup(UniqueId(1), g1c1.location()); global_handles->SetReferenceFromGroup(UniqueId(1), g1c2.location()); global_handles->SetReferenceFromGroup(UniqueId(2), g2c1.location()); List* implicit_refs = global_handles->implicit_ref_groups(); USE(implicit_refs); ASSERT(implicit_refs->length() == 2); ASSERT(implicit_refs->at(0)->parent == reinterpret_cast(g1s1.location())); ASSERT(implicit_refs->at(0)->length == 2); ASSERT(implicit_refs->at(0)->children[0] == g1c1.location()); ASSERT(implicit_refs->at(0)->children[1] == g1c2.location()); ASSERT(implicit_refs->at(1)->parent == reinterpret_cast(g2s1.location())); ASSERT(implicit_refs->at(1)->length == 1); ASSERT(implicit_refs->at(1)->children[0] == g2c1.location()); } TEST(EternalHandles) { CcTest::InitializeVM(); Isolate* isolate = CcTest::i_isolate(); v8::Isolate* v8_isolate = reinterpret_cast(isolate); EternalHandles* eternal_handles = isolate->eternal_handles(); // Create a number of handles that will not be on a block boundary const int kArrayLength = 2048-1; int indices[kArrayLength]; v8::Eternal eternals[kArrayLength]; CHECK_EQ(0, eternal_handles->NumberOfHandles()); for (int i = 0; i < kArrayLength; i++) { indices[i] = -1; HandleScope scope(isolate); v8::Local object = v8::Object::New(v8_isolate); object->Set(i, v8::Integer::New(v8_isolate, i)); // Create with internal api eternal_handles->Create( isolate, *v8::Utils::OpenHandle(*object), &indices[i]); // Create with external api CHECK(eternals[i].IsEmpty()); eternals[i].Set(v8_isolate, object); CHECK(!eternals[i].IsEmpty()); } isolate->heap()->CollectAllAvailableGarbage(); for (int i = 0; i < kArrayLength; i++) { for (int j = 0; j < 2; j++) { HandleScope scope(isolate); v8::Local local; if (j == 0) { // Test internal api local = v8::Utils::ToLocal(eternal_handles->Get(indices[i])); } else { // Test external api local = eternals[i].Get(v8_isolate); } v8::Local object = v8::Handle::Cast(local); v8::Local value = object->Get(i); CHECK(value->IsInt32()); CHECK_EQ(i, value->Int32Value()); } } CHECK_EQ(2*kArrayLength, eternal_handles->NumberOfHandles()); // Create an eternal via the constructor { HandleScope scope(isolate); v8::Local object = v8::Object::New(v8_isolate); v8::Eternal eternal(v8_isolate, object); CHECK(!eternal.IsEmpty()); CHECK(object == eternal.Get(v8_isolate)); } CHECK_EQ(2*kArrayLength + 1, eternal_handles->NumberOfHandles()); }