8034b9a539
It was accidentally removed in CL that introduced BoundedPageAllocator. This CL also cleans up the CodeRangeAddressHint a bit. Bug: v8:8096, chromium:887252 Change-Id: Idc84796dd1ff1b440cbe3515732984264defcf2d Reviewed-on: https://chromium-review.googlesource.com/1249125 Commit-Queue: Igor Sheludko <ishell@chromium.org> Reviewed-by: Michael Lippautz <mlippautz@chromium.org> Cr-Commit-Position: refs/heads/master@{#56287}
145 lines
5.5 KiB
C++
145 lines
5.5 KiB
C++
// Copyright 2017 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "src/heap/heap-inl.h"
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#include "src/heap/heap-write-barrier-inl.h"
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#include "src/heap/spaces-inl.h"
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#include "src/isolate.h"
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#include "test/unittests/test-utils.h"
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namespace v8 {
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namespace internal {
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typedef TestWithIsolate SpacesTest;
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TEST_F(SpacesTest, CompactionSpaceMerge) {
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Heap* heap = i_isolate()->heap();
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OldSpace* old_space = heap->old_space();
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EXPECT_TRUE(old_space != nullptr);
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CompactionSpace* compaction_space =
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new CompactionSpace(heap, OLD_SPACE, NOT_EXECUTABLE);
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EXPECT_TRUE(compaction_space != nullptr);
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for (Page* p : *old_space) {
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// Unlink free lists from the main space to avoid reusing the memory for
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// compaction spaces.
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old_space->UnlinkFreeListCategories(p);
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}
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// Cannot loop until "Available()" since we initially have 0 bytes available
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// and would thus neither grow, nor be able to allocate an object.
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const int kNumObjects = 10;
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const int kNumObjectsPerPage =
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compaction_space->AreaSize() / kMaxRegularHeapObjectSize;
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const int kExpectedPages =
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(kNumObjects + kNumObjectsPerPage - 1) / kNumObjectsPerPage;
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for (int i = 0; i < kNumObjects; i++) {
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HeapObject* object =
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compaction_space->AllocateRawUnaligned(kMaxRegularHeapObjectSize)
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.ToObjectChecked();
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heap->CreateFillerObjectAt(object->address(), kMaxRegularHeapObjectSize,
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ClearRecordedSlots::kNo);
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}
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int pages_in_old_space = old_space->CountTotalPages();
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int pages_in_compaction_space = compaction_space->CountTotalPages();
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EXPECT_EQ(kExpectedPages, pages_in_compaction_space);
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old_space->MergeCompactionSpace(compaction_space);
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EXPECT_EQ(pages_in_old_space + pages_in_compaction_space,
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old_space->CountTotalPages());
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delete compaction_space;
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}
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TEST_F(SpacesTest, WriteBarrierFromHeapObject) {
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constexpr Address address1 = Page::kPageSize;
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HeapObject* object1 = reinterpret_cast<HeapObject*>(address1);
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MemoryChunk* chunk1 = MemoryChunk::FromHeapObject(object1);
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heap_internals::MemoryChunk* slim_chunk1 =
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heap_internals::MemoryChunk::FromHeapObject(object1);
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EXPECT_EQ(static_cast<void*>(chunk1), static_cast<void*>(slim_chunk1));
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constexpr Address address2 = 2 * Page::kPageSize - 1;
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HeapObject* object2 = reinterpret_cast<HeapObject*>(address2);
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MemoryChunk* chunk2 = MemoryChunk::FromHeapObject(object2);
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heap_internals::MemoryChunk* slim_chunk2 =
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heap_internals::MemoryChunk::FromHeapObject(object2);
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EXPECT_EQ(static_cast<void*>(chunk2), static_cast<void*>(slim_chunk2));
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}
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TEST_F(SpacesTest, WriteBarrierIsMarking) {
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char memory[256];
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memset(&memory, 0, sizeof(memory));
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MemoryChunk* chunk = reinterpret_cast<MemoryChunk*>(&memory);
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heap_internals::MemoryChunk* slim_chunk =
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reinterpret_cast<heap_internals::MemoryChunk*>(&memory);
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EXPECT_FALSE(chunk->IsFlagSet(MemoryChunk::INCREMENTAL_MARKING));
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EXPECT_FALSE(slim_chunk->IsMarking());
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chunk->SetFlag(MemoryChunk::INCREMENTAL_MARKING);
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EXPECT_TRUE(chunk->IsFlagSet(MemoryChunk::INCREMENTAL_MARKING));
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EXPECT_TRUE(slim_chunk->IsMarking());
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chunk->ClearFlag(MemoryChunk::INCREMENTAL_MARKING);
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EXPECT_FALSE(chunk->IsFlagSet(MemoryChunk::INCREMENTAL_MARKING));
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EXPECT_FALSE(slim_chunk->IsMarking());
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}
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TEST_F(SpacesTest, WriteBarrierInNewSpaceToSpace) {
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char memory[256];
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memset(&memory, 0, sizeof(memory));
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MemoryChunk* chunk = reinterpret_cast<MemoryChunk*>(&memory);
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heap_internals::MemoryChunk* slim_chunk =
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reinterpret_cast<heap_internals::MemoryChunk*>(&memory);
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EXPECT_FALSE(chunk->InNewSpace());
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EXPECT_FALSE(slim_chunk->InNewSpace());
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chunk->SetFlag(MemoryChunk::IN_TO_SPACE);
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EXPECT_TRUE(chunk->InNewSpace());
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EXPECT_TRUE(slim_chunk->InNewSpace());
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chunk->ClearFlag(MemoryChunk::IN_TO_SPACE);
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EXPECT_FALSE(chunk->InNewSpace());
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EXPECT_FALSE(slim_chunk->InNewSpace());
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}
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TEST_F(SpacesTest, WriteBarrierInNewSpaceFromSpace) {
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char memory[256];
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memset(&memory, 0, sizeof(memory));
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MemoryChunk* chunk = reinterpret_cast<MemoryChunk*>(&memory);
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heap_internals::MemoryChunk* slim_chunk =
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reinterpret_cast<heap_internals::MemoryChunk*>(&memory);
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EXPECT_FALSE(chunk->InNewSpace());
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EXPECT_FALSE(slim_chunk->InNewSpace());
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chunk->SetFlag(MemoryChunk::IN_FROM_SPACE);
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EXPECT_TRUE(chunk->InNewSpace());
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EXPECT_TRUE(slim_chunk->InNewSpace());
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chunk->ClearFlag(MemoryChunk::IN_FROM_SPACE);
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EXPECT_FALSE(chunk->InNewSpace());
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EXPECT_FALSE(slim_chunk->InNewSpace());
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}
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TEST_F(SpacesTest, CodeRangeAddressReuse) {
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CodeRangeAddressHint hint;
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// Create code ranges.
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Address code_range1 = hint.GetAddressHint(100);
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Address code_range2 = hint.GetAddressHint(200);
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Address code_range3 = hint.GetAddressHint(100);
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// Since the addresses are random, we cannot check that they are different.
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// Free two code ranges.
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hint.NotifyFreedCodeRange(code_range1, 100);
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hint.NotifyFreedCodeRange(code_range2, 200);
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// The next two code ranges should reuse the freed addresses.
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Address code_range4 = hint.GetAddressHint(100);
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EXPECT_EQ(code_range4, code_range1);
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Address code_range5 = hint.GetAddressHint(200);
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EXPECT_EQ(code_range5, code_range2);
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// Free the third code range and check address reuse.
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hint.NotifyFreedCodeRange(code_range3, 100);
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Address code_range6 = hint.GetAddressHint(100);
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EXPECT_EQ(code_range6, code_range3);
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}
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} // namespace internal
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} // namespace v8
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