// Copyright 2015 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include #include "src/globals.h" #include "src/heap/heap-inl.h" #include "src/heap/spaces-inl.h" #include "src/objects/objects.h" #include "test/cctest/cctest.h" namespace v8 { namespace internal { namespace heap { static Address AllocateLabBackingStore(Heap* heap, intptr_t size_in_bytes) { AllocationResult result = heap->old_space()->AllocateRaw( static_cast(size_in_bytes), kDoubleAligned); Address adr = result.ToObjectChecked().address(); return adr; } static void VerifyIterable(v8::internal::Address base, v8::internal::Address limit, std::vector expected_size) { CHECK_LE(base, limit); HeapObject object; size_t counter = 0; while (base < limit) { object = HeapObject::FromAddress(base); CHECK(object.IsFiller()); CHECK_LT(counter, expected_size.size()); CHECK_EQ(expected_size[counter], object.Size()); base += object.Size(); counter++; } } static bool AllocateFromLab(Heap* heap, LocalAllocationBuffer* lab, intptr_t size_in_bytes, AllocationAlignment alignment = kWordAligned) { HeapObject obj; AllocationResult result = lab->AllocateRawAligned(static_cast(size_in_bytes), alignment); if (result.To(&obj)) { heap->CreateFillerObjectAt(obj.address(), static_cast(size_in_bytes), ClearRecordedSlots::kNo); return true; } return false; } TEST(InvalidLab) { LocalAllocationBuffer lab = LocalAllocationBuffer::InvalidBuffer(); CHECK(!lab.IsValid()); } TEST(UnusedLabImplicitClose) { CcTest::InitializeVM(); Heap* heap = CcTest::heap(); const int kLabSize = 4 * KB; Address base = AllocateLabBackingStore(heap, kLabSize); Address limit = base + kLabSize; intptr_t expected_sizes_raw[1] = {kLabSize}; std::vector expected_sizes(expected_sizes_raw, expected_sizes_raw + 1); { AllocationResult lab_backing_store(HeapObject::FromAddress(base)); LocalAllocationBuffer lab = LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize); CHECK(lab.IsValid()); } VerifyIterable(base, limit, expected_sizes); } TEST(SimpleAllocate) { CcTest::InitializeVM(); Heap* heap = CcTest::heap(); const int kLabSize = 4 * KB; Address base = AllocateLabBackingStore(heap, kLabSize); Address limit = base + kLabSize; intptr_t sizes_raw[1] = {128}; intptr_t expected_sizes_raw[2] = {128, kLabSize - 128}; std::vector sizes(sizes_raw, sizes_raw + 1); std::vector expected_sizes(expected_sizes_raw, expected_sizes_raw + 2); { AllocationResult lab_backing_store(HeapObject::FromAddress(base)); LocalAllocationBuffer lab = LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize); CHECK(lab.IsValid()); intptr_t sum = 0; for (auto size : sizes) { if (AllocateFromLab(heap, &lab, size)) { sum += size; } } } VerifyIterable(base, limit, expected_sizes); } TEST(AllocateUntilLabOOM) { CcTest::InitializeVM(); Heap* heap = CcTest::heap(); const int kLabSize = 2 * KB; Address base = AllocateLabBackingStore(heap, kLabSize); Address limit = base + kLabSize; // The following objects won't fit in {kLabSize}. intptr_t sizes_raw[5] = {512, 512, 128, 512, 512}; intptr_t expected_sizes_raw[5] = {512, 512, 128, 512, 384 /* left over */}; std::vector sizes(sizes_raw, sizes_raw + 5); std::vector expected_sizes(expected_sizes_raw, expected_sizes_raw + 5); intptr_t sum = 0; { AllocationResult lab_backing_store(HeapObject::FromAddress(base)); LocalAllocationBuffer lab = LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize); CHECK(lab.IsValid()); for (auto size : sizes) { if (AllocateFromLab(heap, &lab, size)) { sum += size; } } CHECK_EQ(kLabSize - sum, 384); } VerifyIterable(base, limit, expected_sizes); } TEST(AllocateExactlyUntilLimit) { CcTest::InitializeVM(); Heap* heap = CcTest::heap(); const int kLabSize = 2 * KB; Address base = AllocateLabBackingStore(heap, kLabSize); Address limit = base + kLabSize; intptr_t sizes_raw[4] = {512, 512, 512, 512}; intptr_t expected_sizes_raw[5] = {512, 512, 512, 512, 0}; std::vector sizes(sizes_raw, sizes_raw + 4); std::vector expected_sizes(expected_sizes_raw, expected_sizes_raw + 5); { AllocationResult lab_backing_store(HeapObject::FromAddress(base)); LocalAllocationBuffer lab = LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize); CHECK(lab.IsValid()); intptr_t sum = 0; for (auto size : sizes) { if (AllocateFromLab(heap, &lab, size)) { sum += size; } else { break; } } CHECK_EQ(kLabSize - sum, 0); } VerifyIterable(base, limit, expected_sizes); } TEST(MergeSuccessful) { CcTest::InitializeVM(); Heap* heap = CcTest::heap(); const int kLabSize = 2 * KB; Address base1 = AllocateLabBackingStore(heap, 2 * kLabSize); Address limit1 = base1 + kLabSize; Address base2 = limit1; Address limit2 = base2 + kLabSize; intptr_t sizes1_raw[4] = {512, 512, 512, 256}; intptr_t expected_sizes1_raw[5] = {512, 512, 512, 256, 256}; std::vector sizes1(sizes1_raw, sizes1_raw + 4); std::vector expected_sizes1(expected_sizes1_raw, expected_sizes1_raw + 5); intptr_t sizes2_raw[5] = {256, 512, 512, 512, 512}; intptr_t expected_sizes2_raw[10] = {512, 512, 512, 256, 256, 512, 512, 512, 512, 0}; std::vector sizes2(sizes2_raw, sizes2_raw + 5); std::vector expected_sizes2(expected_sizes2_raw, expected_sizes2_raw + 10); { AllocationResult lab_backing_store1(HeapObject::FromAddress(base1)); LocalAllocationBuffer lab1 = LocalAllocationBuffer::FromResult(heap, lab_backing_store1, kLabSize); CHECK(lab1.IsValid()); intptr_t sum = 0; for (auto size : sizes1) { if (AllocateFromLab(heap, &lab1, size)) { sum += size; } else { break; } } AllocationResult lab_backing_store2(HeapObject::FromAddress(base2)); LocalAllocationBuffer lab2 = LocalAllocationBuffer::FromResult(heap, lab_backing_store2, kLabSize); CHECK(lab2.IsValid()); CHECK(lab2.TryMerge(&lab1)); CHECK(!lab1.IsValid()); for (auto size : sizes2) { if (AllocateFromLab(heap, &lab2, size)) { sum += size; } else { break; } } CHECK_EQ(2 * kLabSize - sum, 0); } VerifyIterable(base1, limit1, expected_sizes1); VerifyIterable(base1, limit2, expected_sizes2); } TEST(MergeFailed) { CcTest::InitializeVM(); Heap* heap = CcTest::heap(); const int kLabSize = 2 * KB; Address base1 = AllocateLabBackingStore(heap, 3 * kLabSize); Address base2 = base1 + kLabSize; Address base3 = base2 + kLabSize; { AllocationResult lab_backing_store1(HeapObject::FromAddress(base1)); LocalAllocationBuffer lab1 = LocalAllocationBuffer::FromResult(heap, lab_backing_store1, kLabSize); CHECK(lab1.IsValid()); AllocationResult lab_backing_store2(HeapObject::FromAddress(base2)); LocalAllocationBuffer lab2 = LocalAllocationBuffer::FromResult(heap, lab_backing_store2, kLabSize); CHECK(lab2.IsValid()); AllocationResult lab_backing_store3(HeapObject::FromAddress(base3)); LocalAllocationBuffer lab3 = LocalAllocationBuffer::FromResult(heap, lab_backing_store3, kLabSize); CHECK(lab3.IsValid()); CHECK(!lab3.TryMerge(&lab1)); } } #ifdef V8_HOST_ARCH_32_BIT TEST(AllocateAligned) { CcTest::InitializeVM(); Heap* heap = CcTest::heap(); const int kLabSize = 2 * KB; Address base = AllocateLabBackingStore(heap, kLabSize); Address limit = base + kLabSize; std::pair sizes_raw[2] = { std::make_pair(116, kWordAligned), std::make_pair(64, kDoubleAligned)}; std::vector> sizes(sizes_raw, sizes_raw + 2); intptr_t expected_sizes_raw[4] = {116, 4, 64, 1864}; std::vector expected_sizes(expected_sizes_raw, expected_sizes_raw + 4); { AllocationResult lab_backing_store(HeapObject::FromAddress(base)); LocalAllocationBuffer lab = LocalAllocationBuffer::FromResult(heap, lab_backing_store, kLabSize); CHECK(lab.IsValid()); for (auto pair : sizes) { if (!AllocateFromLab(heap, &lab, pair.first, pair.second)) { break; } } } VerifyIterable(base, limit, expected_sizes); } #endif // V8_HOST_ARCH_32_BIT } // namespace heap } // namespace internal } // namespace v8