4244b989ca
As part of the page type unification also unify page iterators. Iterating over a space works the same for all spaces now (new, old, lo). Iterating over pages of a space follows now the regular C++ iterator pattern: - for (auto it = space->begin(); it != space->end(); ++it) {} - for (Page* p : *space) {} GC only: Loop supporting unlinking/freeing of a Page on the fly: for (auto it = space->begin(); != space->end();) { Page* p = *(it++); p->Unlink(); } For iteration of a range of new space pages use NewSpacePageRange which also verifies that the range is actually a proper new space page range. BUG=chromium:581412 LOG=N Review-Url: https://codereview.chromium.org/2088223002 Cr-Commit-Position: refs/heads/master@{#37210}
159 lines
5.5 KiB
C++
159 lines
5.5 KiB
C++
// Copyright 2016 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 "test/cctest/heap/heap-utils.h"
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#include "src/factory.h"
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#include "src/heap/heap-inl.h"
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#include "src/heap/incremental-marking.h"
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#include "src/heap/mark-compact.h"
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#include "src/isolate.h"
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namespace v8 {
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namespace internal {
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namespace heap {
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void SealCurrentObjects(Heap* heap) {
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heap->CollectAllGarbage();
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heap->CollectAllGarbage();
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heap->mark_compact_collector()->EnsureSweepingCompleted();
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heap->old_space()->EmptyAllocationInfo();
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for (Page* page : *heap->old_space()) {
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page->MarkNeverAllocateForTesting();
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}
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}
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int FixedArrayLenFromSize(int size) {
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return (size - FixedArray::kHeaderSize) / kPointerSize;
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}
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std::vector<Handle<FixedArray>> CreatePadding(Heap* heap, int padding_size,
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PretenureFlag tenure,
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int object_size) {
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std::vector<Handle<FixedArray>> handles;
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Isolate* isolate = heap->isolate();
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int allocate_memory;
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int length;
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int free_memory = padding_size;
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if (tenure == i::TENURED) {
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heap->old_space()->EmptyAllocationInfo();
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int overall_free_memory = static_cast<int>(heap->old_space()->Available());
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CHECK(padding_size <= overall_free_memory || overall_free_memory == 0);
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} else {
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heap->new_space()->DisableInlineAllocationSteps();
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int overall_free_memory =
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static_cast<int>(*heap->new_space()->allocation_limit_address() -
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*heap->new_space()->allocation_top_address());
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CHECK(padding_size <= overall_free_memory || overall_free_memory == 0);
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}
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while (free_memory > 0) {
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if (free_memory > object_size) {
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allocate_memory = object_size;
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length = FixedArrayLenFromSize(allocate_memory);
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} else {
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allocate_memory = free_memory;
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length = FixedArrayLenFromSize(allocate_memory);
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if (length <= 0) {
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// Not enough room to create another fixed array. Let's create a filler.
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if (free_memory > (2 * kPointerSize)) {
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heap->CreateFillerObjectAt(
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*heap->old_space()->allocation_top_address(), free_memory,
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ClearRecordedSlots::kNo);
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}
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break;
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}
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}
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handles.push_back(isolate->factory()->NewFixedArray(length, tenure));
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CHECK((tenure == NOT_TENURED && heap->InNewSpace(*handles.back())) ||
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(tenure == TENURED && heap->InOldSpace(*handles.back())));
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free_memory -= allocate_memory;
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}
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return handles;
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}
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void AllocateAllButNBytes(v8::internal::NewSpace* space, int extra_bytes,
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std::vector<Handle<FixedArray>>* out_handles) {
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space->DisableInlineAllocationSteps();
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int space_remaining = static_cast<int>(*space->allocation_limit_address() -
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*space->allocation_top_address());
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CHECK(space_remaining >= extra_bytes);
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int new_linear_size = space_remaining - extra_bytes;
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if (new_linear_size == 0) return;
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std::vector<Handle<FixedArray>> handles =
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heap::CreatePadding(space->heap(), new_linear_size, i::NOT_TENURED);
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if (out_handles != nullptr)
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out_handles->insert(out_handles->end(), handles.begin(), handles.end());
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}
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void FillCurrentPage(v8::internal::NewSpace* space,
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std::vector<Handle<FixedArray>>* out_handles) {
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heap::AllocateAllButNBytes(space, 0, out_handles);
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}
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bool FillUpOnePage(v8::internal::NewSpace* space,
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std::vector<Handle<FixedArray>>* out_handles) {
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space->DisableInlineAllocationSteps();
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int space_remaining = static_cast<int>(*space->allocation_limit_address() -
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*space->allocation_top_address());
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if (space_remaining == 0) return false;
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std::vector<Handle<FixedArray>> handles =
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heap::CreatePadding(space->heap(), space_remaining, i::NOT_TENURED);
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if (out_handles != nullptr)
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out_handles->insert(out_handles->end(), handles.begin(), handles.end());
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return true;
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}
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void SimulateFullSpace(v8::internal::NewSpace* space,
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std::vector<Handle<FixedArray>>* out_handles) {
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heap::FillCurrentPage(space, out_handles);
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while (heap::FillUpOnePage(space, out_handles) || space->AddFreshPage()) {
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}
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}
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void SimulateIncrementalMarking(i::Heap* heap, bool force_completion) {
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i::MarkCompactCollector* collector = heap->mark_compact_collector();
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i::IncrementalMarking* marking = heap->incremental_marking();
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if (collector->sweeping_in_progress()) {
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collector->EnsureSweepingCompleted();
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}
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CHECK(marking->IsMarking() || marking->IsStopped());
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if (marking->IsStopped()) {
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heap->StartIncrementalMarking();
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}
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CHECK(marking->IsMarking());
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if (!force_completion) return;
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while (!marking->IsComplete()) {
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marking->Step(i::MB, i::IncrementalMarking::NO_GC_VIA_STACK_GUARD);
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if (marking->IsReadyToOverApproximateWeakClosure()) {
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marking->FinalizeIncrementally();
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}
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}
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CHECK(marking->IsComplete());
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}
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void SimulateFullSpace(v8::internal::PagedSpace* space) {
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space->EmptyAllocationInfo();
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space->ResetFreeList();
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space->ClearStats();
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}
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void AbandonCurrentlyFreeMemory(PagedSpace* space) {
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space->EmptyAllocationInfo();
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for (Page* page : *space) {
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page->MarkNeverAllocateForTesting();
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}
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}
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void GcAndSweep(Heap* heap, AllocationSpace space) {
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heap->CollectGarbage(space);
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if (heap->mark_compact_collector()->sweeping_in_progress()) {
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heap->mark_compact_collector()->EnsureSweepingCompleted();
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}
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}
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} // namespace heap
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} // namespace internal
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} // namespace v8
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