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208 lines
7.0 KiB
208 lines
7.0 KiB
4 months ago
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//===-- secondary_test.cpp --------------------------------------*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "tests/scudo_unit_test.h"
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#include "allocator_config.h"
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#include "secondary.h"
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#include <stdio.h>
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#include <condition_variable>
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#include <mutex>
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#include <random>
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#include <thread>
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#include <vector>
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template <typename Config> static void testSecondaryBasic(void) {
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using SecondaryT = scudo::MapAllocator<Config>;
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scudo::GlobalStats S;
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S.init();
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std::unique_ptr<SecondaryT> L(new SecondaryT);
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L->init(&S);
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const scudo::uptr Size = 1U << 16;
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void *P = L->allocate(scudo::Options{}, Size);
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EXPECT_NE(P, nullptr);
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memset(P, 'A', Size);
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EXPECT_GE(SecondaryT::getBlockSize(P), Size);
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L->deallocate(scudo::Options{}, P);
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// If the Secondary can't cache that pointer, it will be unmapped.
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if (!L->canCache(Size))
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EXPECT_DEATH(memset(P, 'A', Size), "");
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const scudo::uptr Align = 1U << 16;
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P = L->allocate(scudo::Options{}, Size + Align, Align);
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EXPECT_NE(P, nullptr);
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void *AlignedP = reinterpret_cast<void *>(
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scudo::roundUpTo(reinterpret_cast<scudo::uptr>(P), Align));
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memset(AlignedP, 'A', Size);
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L->deallocate(scudo::Options{}, P);
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std::vector<void *> V;
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for (scudo::uptr I = 0; I < 32U; I++)
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V.push_back(L->allocate(scudo::Options{}, Size));
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std::shuffle(V.begin(), V.end(), std::mt19937(std::random_device()()));
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while (!V.empty()) {
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L->deallocate(scudo::Options{}, V.back());
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V.pop_back();
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}
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scudo::ScopedString Str(1024);
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L->getStats(&Str);
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Str.output();
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}
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struct NoCacheConfig {
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typedef scudo::MapAllocatorNoCache SecondaryCache;
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static const bool MaySupportMemoryTagging = false;
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};
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struct TestConfig {
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typedef scudo::MapAllocatorCache<TestConfig> SecondaryCache;
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static const bool MaySupportMemoryTagging = false;
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static const scudo::u32 SecondaryCacheEntriesArraySize = 128U;
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static const scudo::u32 SecondaryCacheQuarantineSize = 0U;
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static const scudo::u32 SecondaryCacheDefaultMaxEntriesCount = 64U;
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static const scudo::uptr SecondaryCacheDefaultMaxEntrySize = 1UL << 20;
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static const scudo::s32 SecondaryCacheMinReleaseToOsIntervalMs = INT32_MIN;
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static const scudo::s32 SecondaryCacheMaxReleaseToOsIntervalMs = INT32_MAX;
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};
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TEST(ScudoSecondaryTest, SecondaryBasic) {
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testSecondaryBasic<NoCacheConfig>();
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testSecondaryBasic<scudo::DefaultConfig>();
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testSecondaryBasic<TestConfig>();
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}
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using LargeAllocator = scudo::MapAllocator<scudo::DefaultConfig>;
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// This exercises a variety of combinations of size and alignment for the
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// MapAllocator. The size computation done here mimic the ones done by the
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// combined allocator.
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TEST(ScudoSecondaryTest, SecondaryCombinations) {
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constexpr scudo::uptr MinAlign = FIRST_32_SECOND_64(8, 16);
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constexpr scudo::uptr HeaderSize = scudo::roundUpTo(8, MinAlign);
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std::unique_ptr<LargeAllocator> L(new LargeAllocator);
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L->init(nullptr);
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for (scudo::uptr SizeLog = 0; SizeLog <= 20; SizeLog++) {
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for (scudo::uptr AlignLog = FIRST_32_SECOND_64(3, 4); AlignLog <= 16;
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AlignLog++) {
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const scudo::uptr Align = 1U << AlignLog;
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for (scudo::sptr Delta = -128; Delta <= 128; Delta += 8) {
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if (static_cast<scudo::sptr>(1U << SizeLog) + Delta <= 0)
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continue;
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const scudo::uptr UserSize =
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scudo::roundUpTo((1U << SizeLog) + Delta, MinAlign);
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const scudo::uptr Size =
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HeaderSize + UserSize + (Align > MinAlign ? Align - HeaderSize : 0);
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void *P = L->allocate(scudo::Options{}, Size, Align);
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EXPECT_NE(P, nullptr);
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void *AlignedP = reinterpret_cast<void *>(
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scudo::roundUpTo(reinterpret_cast<scudo::uptr>(P), Align));
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memset(AlignedP, 0xff, UserSize);
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L->deallocate(scudo::Options{}, P);
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}
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}
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}
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scudo::ScopedString Str(1024);
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L->getStats(&Str);
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Str.output();
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}
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TEST(ScudoSecondaryTest, SecondaryIterate) {
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std::unique_ptr<LargeAllocator> L(new LargeAllocator);
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L->init(nullptr);
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std::vector<void *> V;
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const scudo::uptr PageSize = scudo::getPageSizeCached();
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for (scudo::uptr I = 0; I < 32U; I++)
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V.push_back(L->allocate(scudo::Options{}, (std::rand() % 16) * PageSize));
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auto Lambda = [V](scudo::uptr Block) {
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EXPECT_NE(std::find(V.begin(), V.end(), reinterpret_cast<void *>(Block)),
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V.end());
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};
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L->disable();
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L->iterateOverBlocks(Lambda);
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L->enable();
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while (!V.empty()) {
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L->deallocate(scudo::Options{}, V.back());
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V.pop_back();
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}
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scudo::ScopedString Str(1024);
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L->getStats(&Str);
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Str.output();
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}
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TEST(ScudoSecondaryTest, SecondaryOptions) {
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std::unique_ptr<LargeAllocator> L(new LargeAllocator);
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L->init(nullptr);
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// Attempt to set a maximum number of entries higher than the array size.
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EXPECT_FALSE(L->setOption(scudo::Option::MaxCacheEntriesCount, 4096U));
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// A negative number will be cast to a scudo::u32, and fail.
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EXPECT_FALSE(L->setOption(scudo::Option::MaxCacheEntriesCount, -1));
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if (L->canCache(0U)) {
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// Various valid combinations.
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EXPECT_TRUE(L->setOption(scudo::Option::MaxCacheEntriesCount, 4U));
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EXPECT_TRUE(L->setOption(scudo::Option::MaxCacheEntrySize, 1UL << 20));
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EXPECT_TRUE(L->canCache(1UL << 18));
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EXPECT_TRUE(L->setOption(scudo::Option::MaxCacheEntrySize, 1UL << 17));
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EXPECT_FALSE(L->canCache(1UL << 18));
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EXPECT_TRUE(L->canCache(1UL << 16));
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EXPECT_TRUE(L->setOption(scudo::Option::MaxCacheEntriesCount, 0U));
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EXPECT_FALSE(L->canCache(1UL << 16));
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EXPECT_TRUE(L->setOption(scudo::Option::MaxCacheEntriesCount, 4U));
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EXPECT_TRUE(L->setOption(scudo::Option::MaxCacheEntrySize, 1UL << 20));
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EXPECT_TRUE(L->canCache(1UL << 16));
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}
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}
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static std::mutex Mutex;
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static std::condition_variable Cv;
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static bool Ready;
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static void performAllocations(LargeAllocator *L) {
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std::vector<void *> V;
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const scudo::uptr PageSize = scudo::getPageSizeCached();
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{
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std::unique_lock<std::mutex> Lock(Mutex);
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while (!Ready)
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Cv.wait(Lock);
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}
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for (scudo::uptr I = 0; I < 128U; I++) {
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// Deallocate 75% of the blocks.
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const bool Deallocate = (rand() & 3) != 0;
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void *P = L->allocate(scudo::Options{}, (std::rand() % 16) * PageSize);
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if (Deallocate)
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L->deallocate(scudo::Options{}, P);
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else
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V.push_back(P);
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}
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while (!V.empty()) {
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L->deallocate(scudo::Options{}, V.back());
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V.pop_back();
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}
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}
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TEST(ScudoSecondaryTest, SecondaryThreadsRace) {
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Ready = false;
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std::unique_ptr<LargeAllocator> L(new LargeAllocator);
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L->init(nullptr, /*ReleaseToOsInterval=*/0);
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std::thread Threads[16];
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for (scudo::uptr I = 0; I < ARRAY_SIZE(Threads); I++)
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Threads[I] = std::thread(performAllocations, L.get());
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{
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std::unique_lock<std::mutex> Lock(Mutex);
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Ready = true;
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Cv.notify_all();
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}
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for (auto &T : Threads)
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T.join();
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scudo::ScopedString Str(1024);
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L->getStats(&Str);
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Str.output();
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}
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