dec3298d9c
NOPRESUBMIT=true TBR=mstarzinger@chromium.org Bug: v8:9247 Change-Id: I4cd6b79a1c2cba944f6f23caed59d4f1a4ee358b Reviewed-on: https://chromium-review.googlesource.com/c/v8/v8/+/1624217 Commit-Queue: Yang Guo <yangguo@chromium.org> Reviewed-by: Igor Sheludko <ishell@chromium.org> Reviewed-by: Georg Neis <neis@chromium.org> Reviewed-by: Jaroslav Sevcik <jarin@chromium.org> Cr-Commit-Position: refs/heads/master@{#61790}
336 lines
13 KiB
C++
336 lines
13 KiB
C++
// Copyright 2014 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 <map>
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#include "src/base/region-allocator.h"
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#include "src/execution/isolate.h"
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#include "src/heap/heap-inl.h"
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#include "src/heap/spaces-inl.h"
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#include "src/utils/ostreams.h"
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#include "test/unittests/test-utils.h"
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#include "testing/gtest/include/gtest/gtest.h"
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namespace v8 {
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namespace internal {
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// This is a v8::PageAllocator implementation that decorates provided page
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// allocator object with page tracking functionality.
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class TrackingPageAllocator : public ::v8::PageAllocator {
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public:
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explicit TrackingPageAllocator(v8::PageAllocator* page_allocator)
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: page_allocator_(page_allocator),
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allocate_page_size_(page_allocator_->AllocatePageSize()),
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commit_page_size_(page_allocator_->CommitPageSize()),
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region_allocator_(kNullAddress, size_t{0} - commit_page_size_,
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commit_page_size_) {
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CHECK_NOT_NULL(page_allocator);
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CHECK(IsAligned(allocate_page_size_, commit_page_size_));
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}
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~TrackingPageAllocator() override = default;
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size_t AllocatePageSize() override { return allocate_page_size_; }
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size_t CommitPageSize() override { return commit_page_size_; }
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void SetRandomMmapSeed(int64_t seed) override {
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return page_allocator_->SetRandomMmapSeed(seed);
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}
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void* GetRandomMmapAddr() override {
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return page_allocator_->GetRandomMmapAddr();
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}
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void* AllocatePages(void* address, size_t size, size_t alignment,
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PageAllocator::Permission access) override {
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void* result =
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page_allocator_->AllocatePages(address, size, alignment, access);
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if (result) {
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// Mark pages as used.
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Address current_page = reinterpret_cast<Address>(result);
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CHECK(IsAligned(current_page, allocate_page_size_));
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CHECK(IsAligned(size, allocate_page_size_));
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CHECK(region_allocator_.AllocateRegionAt(current_page, size));
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Address end = current_page + size;
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while (current_page < end) {
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page_permissions_.insert({current_page, access});
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current_page += commit_page_size_;
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}
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}
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return result;
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}
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bool FreePages(void* address, size_t size) override {
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bool result = page_allocator_->FreePages(address, size);
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if (result) {
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// Mark pages as free.
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Address start = reinterpret_cast<Address>(address);
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CHECK(IsAligned(start, allocate_page_size_));
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CHECK(IsAligned(size, allocate_page_size_));
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size_t freed_size = region_allocator_.FreeRegion(start);
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CHECK(IsAligned(freed_size, commit_page_size_));
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CHECK_EQ(RoundUp(freed_size, allocate_page_size_), size);
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auto start_iter = page_permissions_.find(start);
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CHECK_NE(start_iter, page_permissions_.end());
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auto end_iter = page_permissions_.lower_bound(start + size);
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page_permissions_.erase(start_iter, end_iter);
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}
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return result;
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}
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bool ReleasePages(void* address, size_t size, size_t new_size) override {
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bool result = page_allocator_->ReleasePages(address, size, new_size);
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if (result) {
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Address start = reinterpret_cast<Address>(address);
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CHECK(IsAligned(start, allocate_page_size_));
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CHECK(IsAligned(size, commit_page_size_));
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CHECK(IsAligned(new_size, commit_page_size_));
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CHECK_LT(new_size, size);
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CHECK_EQ(region_allocator_.TrimRegion(start, new_size), size - new_size);
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auto start_iter = page_permissions_.find(start + new_size);
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CHECK_NE(start_iter, page_permissions_.end());
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auto end_iter = page_permissions_.lower_bound(start + size);
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page_permissions_.erase(start_iter, end_iter);
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}
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return result;
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}
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bool SetPermissions(void* address, size_t size,
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PageAllocator::Permission access) override {
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bool result = page_allocator_->SetPermissions(address, size, access);
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if (result) {
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UpdatePagePermissions(reinterpret_cast<Address>(address), size, access);
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}
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return result;
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}
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// Returns true if all the allocated pages were freed.
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bool IsEmpty() { return page_permissions_.empty(); }
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void CheckIsFree(Address address, size_t size) {
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CHECK(IsAligned(address, allocate_page_size_));
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CHECK(IsAligned(size, allocate_page_size_));
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EXPECT_TRUE(region_allocator_.IsFree(address, size));
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}
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void CheckPagePermissions(Address address, size_t size,
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PageAllocator::Permission access) {
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ForEachPage(address, size, [=](PagePermissionsMap::value_type* value) {
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EXPECT_EQ(access, value->second);
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});
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}
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void Print(const char* comment) const {
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i::StdoutStream os;
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os << "\n========================================="
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<< "\nTracingPageAllocator state: ";
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if (comment) os << comment;
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os << "\n-----------------------------------------\n";
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region_allocator_.Print(os);
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os << "-----------------------------------------"
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<< "\nPage permissions:";
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if (page_permissions_.empty()) {
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os << " empty\n";
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return;
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}
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os << "\n" << std::hex << std::showbase;
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Address contiguous_region_start = static_cast<Address>(-1);
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Address contiguous_region_end = contiguous_region_start;
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PageAllocator::Permission contiguous_region_access =
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PageAllocator::kNoAccess;
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for (auto& pair : page_permissions_) {
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if (contiguous_region_end == pair.first &&
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pair.second == contiguous_region_access) {
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contiguous_region_end += commit_page_size_;
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continue;
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}
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if (contiguous_region_start != contiguous_region_end) {
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PrintRegion(os, contiguous_region_start, contiguous_region_end,
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contiguous_region_access);
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}
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contiguous_region_start = pair.first;
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contiguous_region_end = pair.first + commit_page_size_;
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contiguous_region_access = pair.second;
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}
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if (contiguous_region_start != contiguous_region_end) {
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PrintRegion(os, contiguous_region_start, contiguous_region_end,
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contiguous_region_access);
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}
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}
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private:
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using PagePermissionsMap = std::map<Address, PageAllocator::Permission>;
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using ForEachFn = std::function<void(PagePermissionsMap::value_type*)>;
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static void PrintRegion(std::ostream& os, Address start, Address end,
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PageAllocator::Permission access) {
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os << " page: [" << start << ", " << end << "), access: ";
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switch (access) {
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case PageAllocator::kNoAccess:
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os << "--";
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break;
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case PageAllocator::kRead:
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os << "R";
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break;
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case PageAllocator::kReadWrite:
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os << "RW";
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break;
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case PageAllocator::kReadWriteExecute:
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os << "RWX";
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break;
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case PageAllocator::kReadExecute:
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os << "RX";
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break;
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}
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os << "\n";
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}
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void ForEachPage(Address address, size_t size, const ForEachFn& fn) {
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CHECK(IsAligned(address, commit_page_size_));
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CHECK(IsAligned(size, commit_page_size_));
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auto start_iter = page_permissions_.find(address);
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// Start page must exist in page_permissions_.
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CHECK_NE(start_iter, page_permissions_.end());
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auto end_iter = page_permissions_.find(address + size - commit_page_size_);
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// Ensure the last but one page exists in page_permissions_.
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CHECK_NE(end_iter, page_permissions_.end());
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// Now make it point to the next element in order to also process is by the
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// following for loop.
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++end_iter;
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for (auto iter = start_iter; iter != end_iter; ++iter) {
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PagePermissionsMap::value_type& pair = *iter;
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fn(&pair);
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}
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}
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void UpdatePagePermissions(Address address, size_t size,
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PageAllocator::Permission access) {
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ForEachPage(address, size, [=](PagePermissionsMap::value_type* value) {
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value->second = access;
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});
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}
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v8::PageAllocator* const page_allocator_;
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const size_t allocate_page_size_;
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const size_t commit_page_size_;
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// Region allocator tracks page allocation/deallocation requests.
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base::RegionAllocator region_allocator_;
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// This map keeps track of allocated pages' permissions.
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PagePermissionsMap page_permissions_;
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};
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class SequentialUnmapperTest : public TestWithIsolate {
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public:
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SequentialUnmapperTest() = default;
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~SequentialUnmapperTest() override = default;
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static void SetUpTestCase() {
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CHECK_NULL(tracking_page_allocator_);
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old_page_allocator_ = GetPlatformPageAllocator();
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tracking_page_allocator_ = new TrackingPageAllocator(old_page_allocator_);
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CHECK(tracking_page_allocator_->IsEmpty());
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CHECK_EQ(old_page_allocator_,
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SetPlatformPageAllocatorForTesting(tracking_page_allocator_));
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old_flag_ = i::FLAG_concurrent_sweeping;
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i::FLAG_concurrent_sweeping = false;
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TestWithIsolate::SetUpTestCase();
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}
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static void TearDownTestCase() {
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TestWithIsolate::TearDownTestCase();
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i::FLAG_concurrent_sweeping = old_flag_;
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CHECK(tracking_page_allocator_->IsEmpty());
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delete tracking_page_allocator_;
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tracking_page_allocator_ = nullptr;
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}
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Heap* heap() { return isolate()->heap(); }
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MemoryAllocator* allocator() { return heap()->memory_allocator(); }
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MemoryAllocator::Unmapper* unmapper() { return allocator()->unmapper(); }
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TrackingPageAllocator* tracking_page_allocator() {
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return tracking_page_allocator_;
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}
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private:
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static TrackingPageAllocator* tracking_page_allocator_;
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static v8::PageAllocator* old_page_allocator_;
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static bool old_flag_;
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DISALLOW_COPY_AND_ASSIGN(SequentialUnmapperTest);
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};
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TrackingPageAllocator* SequentialUnmapperTest::tracking_page_allocator_ =
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nullptr;
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v8::PageAllocator* SequentialUnmapperTest::old_page_allocator_ = nullptr;
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bool SequentialUnmapperTest::old_flag_;
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// TODO(v8:7464): Enable these once there is a good way to free the shared
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// read-only space.
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#ifndef V8_SHARED_RO_HEAP
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// See v8:5945.
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TEST_F(SequentialUnmapperTest, UnmapOnTeardownAfterAlreadyFreeingPooled) {
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Page* page = allocator()->AllocatePage(
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MemoryChunkLayout::AllocatableMemoryInDataPage(),
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static_cast<PagedSpace*>(heap()->old_space()),
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Executability::NOT_EXECUTABLE);
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EXPECT_NE(nullptr, page);
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const size_t page_size = tracking_page_allocator()->AllocatePageSize();
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tracking_page_allocator()->CheckPagePermissions(page->address(), page_size,
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PageAllocator::kReadWrite);
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allocator()->Free<MemoryAllocator::kPooledAndQueue>(page);
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tracking_page_allocator()->CheckPagePermissions(page->address(), page_size,
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PageAllocator::kReadWrite);
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unmapper()->FreeQueuedChunks();
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tracking_page_allocator()->CheckPagePermissions(page->address(), page_size,
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PageAllocator::kNoAccess);
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unmapper()->TearDown();
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if (i_isolate()->isolate_allocation_mode() ==
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IsolateAllocationMode::kInV8Heap) {
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// In this mode Isolate uses bounded page allocator which allocates pages
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// inside prereserved region. Thus these pages are kept reserved until
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// the Isolate dies.
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tracking_page_allocator()->CheckPagePermissions(page->address(), page_size,
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PageAllocator::kNoAccess);
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} else {
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CHECK_EQ(IsolateAllocationMode::kInCppHeap,
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i_isolate()->isolate_allocation_mode());
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tracking_page_allocator()->CheckIsFree(page->address(), page_size);
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}
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}
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// See v8:5945.
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TEST_F(SequentialUnmapperTest, UnmapOnTeardown) {
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Page* page = allocator()->AllocatePage(
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MemoryChunkLayout::AllocatableMemoryInDataPage(),
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static_cast<PagedSpace*>(heap()->old_space()),
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Executability::NOT_EXECUTABLE);
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EXPECT_NE(nullptr, page);
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const size_t page_size = tracking_page_allocator()->AllocatePageSize();
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tracking_page_allocator()->CheckPagePermissions(page->address(), page_size,
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PageAllocator::kReadWrite);
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allocator()->Free<MemoryAllocator::kPooledAndQueue>(page);
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tracking_page_allocator()->CheckPagePermissions(page->address(), page_size,
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PageAllocator::kReadWrite);
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unmapper()->TearDown();
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if (i_isolate()->isolate_allocation_mode() ==
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IsolateAllocationMode::kInV8Heap) {
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// In this mode Isolate uses bounded page allocator which allocates pages
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// inside prereserved region. Thus these pages are kept reserved until
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// the Isolate dies.
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tracking_page_allocator()->CheckPagePermissions(page->address(), page_size,
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PageAllocator::kNoAccess);
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} else {
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CHECK_EQ(IsolateAllocationMode::kInCppHeap,
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i_isolate()->isolate_allocation_mode());
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tracking_page_allocator()->CheckIsFree(page->address(), page_size);
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}
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}
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#endif // V8_SHARED_RO_HEAP
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} // namespace internal
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} // namespace v8
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