fork of https://github.com/oxigraph/rocksdb and https://github.com/facebook/rocksdb for nextgraph and oxigraph
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578 lines
14 KiB
578 lines
14 KiB
// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
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// This source code is licensed under both the GPLv2 (found in the
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// COPYING file in the root directory) and Apache 2.0 License
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// (found in the LICENSE.Apache file in the root directory).
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#include "util/thread_local.h"
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#include <atomic>
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#include <string>
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#include <thread>
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#include "port/port.h"
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#include "rocksdb/env.h"
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#include "test_util/sync_point.h"
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#include "test_util/testharness.h"
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#include "test_util/testutil.h"
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#include "util/autovector.h"
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namespace ROCKSDB_NAMESPACE {
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class ThreadLocalTest : public testing::Test {
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public:
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ThreadLocalTest() : env_(Env::Default()) {}
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Env* env_;
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};
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namespace {
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struct Params {
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Params(port::Mutex* m, port::CondVar* c, int* u, int n,
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UnrefHandler handler = nullptr)
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: mu(m),
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cv(c),
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unref(u),
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total(n),
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started(0),
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completed(0),
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doWrite(false),
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tls1(handler),
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tls2(nullptr) {}
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port::Mutex* mu;
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port::CondVar* cv;
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int* unref;
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int total;
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int started;
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int completed;
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bool doWrite;
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ThreadLocalPtr tls1;
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ThreadLocalPtr* tls2;
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};
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class IDChecker : public ThreadLocalPtr {
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public:
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static uint32_t PeekId() { return TEST_PeekId(); }
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};
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} // anonymous namespace
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// Suppress false positive clang analyzer warnings.
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#ifndef __clang_analyzer__
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TEST_F(ThreadLocalTest, UniqueIdTest) {
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port::Mutex mu;
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port::CondVar cv(&mu);
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uint32_t base_id = IDChecker::PeekId();
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// New ThreadLocal instance bumps id by 1
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{
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// Id used 0
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Params p1(&mu, &cv, nullptr, 1u);
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ASSERT_EQ(IDChecker::PeekId(), base_id + 1u);
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// Id used 1
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Params p2(&mu, &cv, nullptr, 1u);
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ASSERT_EQ(IDChecker::PeekId(), base_id + 2u);
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// Id used 2
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Params p3(&mu, &cv, nullptr, 1u);
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ASSERT_EQ(IDChecker::PeekId(), base_id + 3u);
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// Id used 3
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Params p4(&mu, &cv, nullptr, 1u);
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ASSERT_EQ(IDChecker::PeekId(), base_id + 4u);
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}
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// id 3, 2, 1, 0 are in the free queue in order
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ASSERT_EQ(IDChecker::PeekId(), base_id + 0u);
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// pick up 0
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Params p1(&mu, &cv, nullptr, 1u);
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ASSERT_EQ(IDChecker::PeekId(), base_id + 1u);
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// pick up 1
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Params* p2 = new Params(&mu, &cv, nullptr, 1u);
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ASSERT_EQ(IDChecker::PeekId(), base_id + 2u);
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// pick up 2
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Params p3(&mu, &cv, nullptr, 1u);
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ASSERT_EQ(IDChecker::PeekId(), base_id + 3u);
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// return up 1
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delete p2;
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ASSERT_EQ(IDChecker::PeekId(), base_id + 1u);
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// Now we have 3, 1 in queue
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// pick up 1
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Params p4(&mu, &cv, nullptr, 1u);
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ASSERT_EQ(IDChecker::PeekId(), base_id + 3u);
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// pick up 3
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Params p5(&mu, &cv, nullptr, 1u);
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// next new id
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ASSERT_EQ(IDChecker::PeekId(), base_id + 4u);
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// After exit, id sequence in queue:
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// 3, 1, 2, 0
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}
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#endif // __clang_analyzer__
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TEST_F(ThreadLocalTest, SequentialReadWriteTest) {
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// global id list carries over 3, 1, 2, 0
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uint32_t base_id = IDChecker::PeekId();
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port::Mutex mu;
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port::CondVar cv(&mu);
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Params p(&mu, &cv, nullptr, 1);
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ThreadLocalPtr tls2;
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p.tls2 = &tls2;
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ASSERT_GT(IDChecker::PeekId(), base_id);
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base_id = IDChecker::PeekId();
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auto func = [](Params* ptr) {
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Params& params = *ptr;
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ASSERT_TRUE(params.tls1.Get() == nullptr);
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params.tls1.Reset(reinterpret_cast<int*>(1));
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ASSERT_TRUE(params.tls1.Get() == reinterpret_cast<int*>(1));
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params.tls1.Reset(reinterpret_cast<int*>(2));
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ASSERT_TRUE(params.tls1.Get() == reinterpret_cast<int*>(2));
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ASSERT_TRUE(params.tls2->Get() == nullptr);
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params.tls2->Reset(reinterpret_cast<int*>(1));
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ASSERT_TRUE(params.tls2->Get() == reinterpret_cast<int*>(1));
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params.tls2->Reset(reinterpret_cast<int*>(2));
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ASSERT_TRUE(params.tls2->Get() == reinterpret_cast<int*>(2));
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params.mu->Lock();
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++(params.completed);
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params.cv->SignalAll();
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params.mu->Unlock();
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};
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for (int iter = 0; iter < 1024; ++iter) {
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ASSERT_EQ(IDChecker::PeekId(), base_id);
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// Another new thread, read/write should not see value from previous thread
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env_->StartThreadTyped(func, &p);
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mu.Lock();
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while (p.completed != iter + 1) {
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cv.Wait();
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}
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mu.Unlock();
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ASSERT_EQ(IDChecker::PeekId(), base_id);
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}
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}
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TEST_F(ThreadLocalTest, ConcurrentReadWriteTest) {
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// global id list carries over 3, 1, 2, 0
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uint32_t base_id = IDChecker::PeekId();
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ThreadLocalPtr tls2;
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port::Mutex mu1;
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port::CondVar cv1(&mu1);
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Params p1(&mu1, &cv1, nullptr, 16);
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p1.tls2 = &tls2;
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port::Mutex mu2;
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port::CondVar cv2(&mu2);
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Params p2(&mu2, &cv2, nullptr, 16);
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p2.doWrite = true;
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p2.tls2 = &tls2;
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auto func = [](void* ptr) {
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auto& p = *static_cast<Params*>(ptr);
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p.mu->Lock();
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// Size_T switches size along with the ptr size
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// we want to cast to.
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size_t own = ++(p.started);
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p.cv->SignalAll();
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while (p.started != p.total) {
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p.cv->Wait();
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}
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p.mu->Unlock();
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// Let write threads write a different value from the read threads
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if (p.doWrite) {
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own += 8192;
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}
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ASSERT_TRUE(p.tls1.Get() == nullptr);
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ASSERT_TRUE(p.tls2->Get() == nullptr);
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auto* env = Env::Default();
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auto start = env->NowMicros();
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p.tls1.Reset(reinterpret_cast<size_t*>(own));
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p.tls2->Reset(reinterpret_cast<size_t*>(own + 1));
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// Loop for 1 second
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while (env->NowMicros() - start < 1000 * 1000) {
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for (int iter = 0; iter < 100000; ++iter) {
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ASSERT_TRUE(p.tls1.Get() == reinterpret_cast<size_t*>(own));
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ASSERT_TRUE(p.tls2->Get() == reinterpret_cast<size_t*>(own + 1));
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if (p.doWrite) {
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p.tls1.Reset(reinterpret_cast<size_t*>(own));
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p.tls2->Reset(reinterpret_cast<size_t*>(own + 1));
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}
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}
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}
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p.mu->Lock();
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++(p.completed);
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p.cv->SignalAll();
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p.mu->Unlock();
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};
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// Initiate 2 instnaces: one keeps writing and one keeps reading.
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// The read instance should not see data from the write instance.
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// Each thread local copy of the value are also different from each
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// other.
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for (int th = 0; th < p1.total; ++th) {
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env_->StartThreadTyped(func, &p1);
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}
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for (int th = 0; th < p2.total; ++th) {
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env_->StartThreadTyped(func, &p2);
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}
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mu1.Lock();
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while (p1.completed != p1.total) {
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cv1.Wait();
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}
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mu1.Unlock();
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mu2.Lock();
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while (p2.completed != p2.total) {
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cv2.Wait();
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}
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mu2.Unlock();
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ASSERT_EQ(IDChecker::PeekId(), base_id + 3u);
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}
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TEST_F(ThreadLocalTest, Unref) {
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auto unref = [](void* ptr) {
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auto& p = *static_cast<Params*>(ptr);
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p.mu->Lock();
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++(*p.unref);
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p.mu->Unlock();
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};
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// Case 0: no unref triggered if ThreadLocalPtr is never accessed
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auto func0 = [](Params* ptr) {
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auto& p = *ptr;
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p.mu->Lock();
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++(p.started);
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p.cv->SignalAll();
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while (p.started != p.total) {
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p.cv->Wait();
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}
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p.mu->Unlock();
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};
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for (int th = 1; th <= 128; th += th) {
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port::Mutex mu;
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port::CondVar cv(&mu);
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int unref_count = 0;
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Params p(&mu, &cv, &unref_count, th, unref);
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for (int i = 0; i < p.total; ++i) {
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env_->StartThreadTyped(func0, &p);
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}
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env_->WaitForJoin();
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ASSERT_EQ(unref_count, 0);
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}
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// Case 1: unref triggered by thread exit
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auto func1 = [](Params* ptr) {
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auto& p = *ptr;
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p.mu->Lock();
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++(p.started);
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p.cv->SignalAll();
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while (p.started != p.total) {
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p.cv->Wait();
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}
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p.mu->Unlock();
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ASSERT_TRUE(p.tls1.Get() == nullptr);
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ASSERT_TRUE(p.tls2->Get() == nullptr);
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p.tls1.Reset(ptr);
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p.tls2->Reset(ptr);
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p.tls1.Reset(ptr);
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p.tls2->Reset(ptr);
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};
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for (int th = 1; th <= 128; th += th) {
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port::Mutex mu;
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port::CondVar cv(&mu);
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int unref_count = 0;
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ThreadLocalPtr tls2(unref);
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Params p(&mu, &cv, &unref_count, th, unref);
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p.tls2 = &tls2;
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for (int i = 0; i < p.total; ++i) {
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env_->StartThreadTyped(func1, &p);
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}
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env_->WaitForJoin();
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// N threads x 2 ThreadLocal instance cleanup on thread exit
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ASSERT_EQ(unref_count, 2 * p.total);
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}
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// Case 2: unref triggered by ThreadLocal instance destruction
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auto func2 = [](Params* ptr) {
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auto& p = *ptr;
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p.mu->Lock();
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++(p.started);
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p.cv->SignalAll();
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while (p.started != p.total) {
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p.cv->Wait();
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}
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p.mu->Unlock();
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ASSERT_TRUE(p.tls1.Get() == nullptr);
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ASSERT_TRUE(p.tls2->Get() == nullptr);
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p.tls1.Reset(ptr);
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p.tls2->Reset(ptr);
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p.tls1.Reset(ptr);
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p.tls2->Reset(ptr);
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p.mu->Lock();
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++(p.completed);
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p.cv->SignalAll();
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// Waiting for instruction to exit thread
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while (p.completed != 0) {
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p.cv->Wait();
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}
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p.mu->Unlock();
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};
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for (int th = 1; th <= 128; th += th) {
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port::Mutex mu;
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port::CondVar cv(&mu);
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int unref_count = 0;
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Params p(&mu, &cv, &unref_count, th, unref);
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p.tls2 = new ThreadLocalPtr(unref);
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for (int i = 0; i < p.total; ++i) {
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env_->StartThreadTyped(func2, &p);
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}
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// Wait for all threads to finish using Params
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mu.Lock();
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while (p.completed != p.total) {
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cv.Wait();
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}
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mu.Unlock();
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// Now destroy one ThreadLocal instance
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delete p.tls2;
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p.tls2 = nullptr;
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// instance destroy for N threads
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ASSERT_EQ(unref_count, p.total);
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// Signal to exit
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mu.Lock();
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p.completed = 0;
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cv.SignalAll();
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mu.Unlock();
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env_->WaitForJoin();
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// additional N threads exit unref for the left instance
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ASSERT_EQ(unref_count, 2 * p.total);
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}
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}
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TEST_F(ThreadLocalTest, Swap) {
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ThreadLocalPtr tls;
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tls.Reset(reinterpret_cast<void*>(1));
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ASSERT_EQ(reinterpret_cast<int64_t>(tls.Swap(nullptr)), 1);
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ASSERT_TRUE(tls.Swap(reinterpret_cast<void*>(2)) == nullptr);
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ASSERT_EQ(reinterpret_cast<int64_t>(tls.Get()), 2);
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ASSERT_EQ(reinterpret_cast<int64_t>(tls.Swap(reinterpret_cast<void*>(3))), 2);
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}
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TEST_F(ThreadLocalTest, Scrape) {
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auto unref = [](void* ptr) {
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auto& p = *static_cast<Params*>(ptr);
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p.mu->Lock();
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++(*p.unref);
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p.mu->Unlock();
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};
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auto func = [](void* ptr) {
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auto& p = *static_cast<Params*>(ptr);
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ASSERT_TRUE(p.tls1.Get() == nullptr);
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ASSERT_TRUE(p.tls2->Get() == nullptr);
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p.tls1.Reset(ptr);
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p.tls2->Reset(ptr);
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p.tls1.Reset(ptr);
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p.tls2->Reset(ptr);
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p.mu->Lock();
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++(p.completed);
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p.cv->SignalAll();
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// Waiting for instruction to exit thread
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while (p.completed != 0) {
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p.cv->Wait();
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}
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p.mu->Unlock();
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};
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for (int th = 1; th <= 128; th += th) {
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port::Mutex mu;
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port::CondVar cv(&mu);
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int unref_count = 0;
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Params p(&mu, &cv, &unref_count, th, unref);
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p.tls2 = new ThreadLocalPtr(unref);
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for (int i = 0; i < p.total; ++i) {
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env_->StartThreadTyped(func, &p);
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}
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// Wait for all threads to finish using Params
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mu.Lock();
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while (p.completed != p.total) {
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cv.Wait();
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}
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mu.Unlock();
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ASSERT_EQ(unref_count, 0);
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// Scrape all thread local data. No unref at thread
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// exit or ThreadLocalPtr destruction
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autovector<void*> ptrs;
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p.tls1.Scrape(&ptrs, nullptr);
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p.tls2->Scrape(&ptrs, nullptr);
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delete p.tls2;
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// Signal to exit
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mu.Lock();
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p.completed = 0;
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cv.SignalAll();
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mu.Unlock();
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env_->WaitForJoin();
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ASSERT_EQ(unref_count, 0);
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}
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}
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TEST_F(ThreadLocalTest, Fold) {
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auto unref = [](void* ptr) {
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delete static_cast<std::atomic<int64_t>*>(ptr);
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};
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static const int kNumThreads = 16;
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static const int kItersPerThread = 10;
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port::Mutex mu;
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port::CondVar cv(&mu);
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Params params(&mu, &cv, nullptr, kNumThreads, unref);
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auto func = [](void* ptr) {
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auto& p = *static_cast<Params*>(ptr);
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ASSERT_TRUE(p.tls1.Get() == nullptr);
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p.tls1.Reset(new std::atomic<int64_t>(0));
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for (int i = 0; i < kItersPerThread; ++i) {
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static_cast<std::atomic<int64_t>*>(p.tls1.Get())->fetch_add(1);
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}
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p.mu->Lock();
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++(p.completed);
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p.cv->SignalAll();
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// Waiting for instruction to exit thread
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while (p.completed != 0) {
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p.cv->Wait();
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}
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p.mu->Unlock();
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};
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for (int th = 0; th < params.total; ++th) {
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env_->StartThread(func, ¶ms);
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}
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// Wait for all threads to finish using Params
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mu.Lock();
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while (params.completed != params.total) {
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cv.Wait();
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}
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mu.Unlock();
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// Verify Fold() behavior
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int64_t sum = 0;
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params.tls1.Fold(
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[](void* ptr, void* res) {
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auto sum_ptr = static_cast<int64_t*>(res);
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*sum_ptr += static_cast<std::atomic<int64_t>*>(ptr)->load();
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},
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&sum);
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ASSERT_EQ(sum, kNumThreads * kItersPerThread);
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// Signal to exit
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mu.Lock();
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params.completed = 0;
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cv.SignalAll();
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mu.Unlock();
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env_->WaitForJoin();
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}
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TEST_F(ThreadLocalTest, CompareAndSwap) {
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ThreadLocalPtr tls;
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ASSERT_TRUE(tls.Swap(reinterpret_cast<void*>(1)) == nullptr);
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void* expected = reinterpret_cast<void*>(1);
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// Swap in 2
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ASSERT_TRUE(tls.CompareAndSwap(reinterpret_cast<void*>(2), expected));
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expected = reinterpret_cast<void*>(100);
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// Fail Swap, still 2
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ASSERT_TRUE(!tls.CompareAndSwap(reinterpret_cast<void*>(2), expected));
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ASSERT_EQ(expected, reinterpret_cast<void*>(2));
|
|
// Swap in 3
|
|
expected = reinterpret_cast<void*>(2);
|
|
ASSERT_TRUE(tls.CompareAndSwap(reinterpret_cast<void*>(3), expected));
|
|
ASSERT_EQ(tls.Get(), reinterpret_cast<void*>(3));
|
|
}
|
|
|
|
namespace {
|
|
|
|
void* AccessThreadLocal(void* /*arg*/) {
|
|
TEST_SYNC_POINT("AccessThreadLocal:Start");
|
|
ThreadLocalPtr tlp;
|
|
tlp.Reset(new std::string("hello RocksDB"));
|
|
TEST_SYNC_POINT("AccessThreadLocal:End");
|
|
return nullptr;
|
|
}
|
|
|
|
} // namespace
|
|
|
|
// The following test is disabled as it requires manual steps to run it
|
|
// correctly.
|
|
//
|
|
// Currently we have no way to acess SyncPoint w/o ASAN error when the
|
|
// child thread dies after the main thread dies. So if you manually enable
|
|
// this test and only see an ASAN error on SyncPoint, it means you pass the
|
|
// test.
|
|
TEST_F(ThreadLocalTest, DISABLED_MainThreadDiesFirst) {
|
|
ROCKSDB_NAMESPACE::SyncPoint::GetInstance()->LoadDependency(
|
|
{{"AccessThreadLocal:Start", "MainThreadDiesFirst:End"},
|
|
{"PosixEnv::~PosixEnv():End", "AccessThreadLocal:End"}});
|
|
|
|
// Triggers the initialization of singletons.
|
|
Env::Default();
|
|
|
|
try {
|
|
ROCKSDB_NAMESPACE::port::Thread th(&AccessThreadLocal, nullptr);
|
|
th.detach();
|
|
TEST_SYNC_POINT("MainThreadDiesFirst:End");
|
|
} catch (const std::system_error& ex) {
|
|
std::cerr << "Start thread: " << ex.code() << std::endl;
|
|
FAIL();
|
|
}
|
|
}
|
|
|
|
} // namespace ROCKSDB_NAMESPACE
|
|
|
|
int main(int argc, char** argv) {
|
|
ROCKSDB_NAMESPACE::port::InstallStackTraceHandler();
|
|
::testing::InitGoogleTest(&argc, argv);
|
|
return RUN_ALL_TESTS();
|
|
}
|
|
|