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| //===-- tsd_test.cpp --------------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "tsd_exclusive.h"
#include "tsd_shared.h"
#include "gtest/gtest.h"
#include <condition_variable>
#include <mutex>
#include <thread>
// We mock out an allocator with a TSD registry, mostly using empty stubs. The
// cache contains a single volatile uptr, to be able to test that several
// concurrent threads will not access or modify the same cache at the same time.
template <class Config> class MockAllocator {
public:
using ThisT = MockAllocator<Config>;
using TSDRegistryT = typename Config::template TSDRegistryT<ThisT>;
using CacheT = struct MockCache { volatile scudo::uptr Canary; };
using QuarantineCacheT = struct MockQuarantine {};
void initLinkerInitialized() {
// This should only be called once by the registry.
EXPECT_FALSE(Initialized);
Initialized = true;
}
void reset() { memset(this, 0, sizeof(*this)); }
void unmapTestOnly() { TSDRegistry.unmapTestOnly(); }
void initCache(CacheT *Cache) { memset(Cache, 0, sizeof(*Cache)); }
void commitBack(scudo::TSD<MockAllocator> *TSD) {}
TSDRegistryT *getTSDRegistry() { return &TSDRegistry; }
bool isInitialized() { return Initialized; }
private:
bool Initialized;
TSDRegistryT TSDRegistry;
};
struct OneCache {
template <class Allocator>
using TSDRegistryT = scudo::TSDRegistrySharedT<Allocator, 1U>;
};
struct SharedCaches {
template <class Allocator>
using TSDRegistryT = scudo::TSDRegistrySharedT<Allocator, 16U>;
};
struct ExclusiveCaches {
template <class Allocator>
using TSDRegistryT = scudo::TSDRegistryExT<Allocator>;
};
TEST(ScudoTSDTest, TSDRegistryInit) {
using AllocatorT = MockAllocator<OneCache>;
auto Deleter = [](AllocatorT *A) {
A->unmapTestOnly();
delete A;
};
std::unique_ptr<AllocatorT, decltype(Deleter)> Allocator(new AllocatorT,
Deleter);
Allocator->reset();
EXPECT_FALSE(Allocator->isInitialized());
auto Registry = Allocator->getTSDRegistry();
Registry->initLinkerInitialized(Allocator.get());
EXPECT_TRUE(Allocator->isInitialized());
}
template <class AllocatorT> static void testRegistry() {
auto Deleter = [](AllocatorT *A) {
A->unmapTestOnly();
delete A;
};
std::unique_ptr<AllocatorT, decltype(Deleter)> Allocator(new AllocatorT,
Deleter);
Allocator->reset();
EXPECT_FALSE(Allocator->isInitialized());
auto Registry = Allocator->getTSDRegistry();
Registry->initThreadMaybe(Allocator.get(), /*MinimalInit=*/true);
EXPECT_TRUE(Allocator->isInitialized());
bool UnlockRequired;
auto TSD = Registry->getTSDAndLock(&UnlockRequired);
EXPECT_NE(TSD, nullptr);
EXPECT_EQ(TSD->Cache.Canary, 0U);
if (UnlockRequired)
TSD->unlock();
Registry->initThreadMaybe(Allocator.get(), /*MinimalInit=*/false);
TSD = Registry->getTSDAndLock(&UnlockRequired);
EXPECT_NE(TSD, nullptr);
EXPECT_EQ(TSD->Cache.Canary, 0U);
memset(&TSD->Cache, 0x42, sizeof(TSD->Cache));
if (UnlockRequired)
TSD->unlock();
}
TEST(ScudoTSDTest, TSDRegistryBasic) {
testRegistry<MockAllocator<OneCache>>();
testRegistry<MockAllocator<SharedCaches>>();
testRegistry<MockAllocator<ExclusiveCaches>>();
}
static std::mutex Mutex;
static std::condition_variable Cv;
static bool Ready = false;
template <typename AllocatorT> static void stressCache(AllocatorT *Allocator) {
auto Registry = Allocator->getTSDRegistry();
{
std::unique_lock<std::mutex> Lock(Mutex);
while (!Ready)
Cv.wait(Lock);
}
Registry->initThreadMaybe(Allocator, /*MinimalInit=*/false);
bool UnlockRequired;
auto TSD = Registry->getTSDAndLock(&UnlockRequired);
EXPECT_NE(TSD, nullptr);
// For an exclusive TSD, the cache should be empty. We cannot guarantee the
// same for a shared TSD.
if (!UnlockRequired)
EXPECT_EQ(TSD->Cache.Canary, 0U);
// Transform the thread id to a uptr to use it as canary.
const scudo::uptr Canary = static_cast<scudo::uptr>(
std::hash<std::thread::id>{}(std::this_thread::get_id()));
TSD->Cache.Canary = Canary;
// Loop a few times to make sure that a concurrent thread isn't modifying it.
for (scudo::uptr I = 0; I < 4096U; I++)
EXPECT_EQ(TSD->Cache.Canary, Canary);
if (UnlockRequired)
TSD->unlock();
}
template <class AllocatorT> static void testRegistryThreaded() {
auto Deleter = [](AllocatorT *A) {
A->unmapTestOnly();
delete A;
};
std::unique_ptr<AllocatorT, decltype(Deleter)> Allocator(new AllocatorT,
Deleter);
Allocator->reset();
std::thread Threads[32];
for (scudo::uptr I = 0; I < ARRAY_SIZE(Threads); I++)
Threads[I] = std::thread(stressCache<AllocatorT>, Allocator.get());
{
std::unique_lock<std::mutex> Lock(Mutex);
Ready = true;
Cv.notify_all();
}
for (auto &T : Threads)
T.join();
}
TEST(ScudoTSDTest, TSDRegistryThreaded) {
testRegistryThreaded<MockAllocator<OneCache>>();
testRegistryThreaded<MockAllocator<SharedCaches>>();
testRegistryThreaded<MockAllocator<ExclusiveCaches>>();
}
|