mirror of https://github.com/facebook/rocksdb.git
349 lines
10 KiB
C++
349 lines
10 KiB
C++
// Copyright (c) 2020-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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#ifndef ROCKSDB_LITE
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#include "utilities/transactions/transaction_lock_mgr.h"
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#include "port/port.h"
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#include "port/stack_trace.h"
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#include "rocksdb/utilities/transaction_db.h"
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#include "test_util/testharness.h"
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#include "test_util/testutil.h"
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#include "utilities/transactions/transaction_db_mutex_impl.h"
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namespace ROCKSDB_NAMESPACE {
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class TransactionLockMgrTest : public testing::Test {
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public:
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void SetUp() override {
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env_ = Env::Default();
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db_dir_ = test::PerThreadDBPath("transaction_lock_mgr_test");
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ASSERT_OK(env_->CreateDir(db_dir_));
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mutex_factory_ = std::make_shared<TransactionDBMutexFactoryImpl>();
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Options opt;
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opt.create_if_missing = true;
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TransactionDBOptions txn_opt;
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txn_opt.transaction_lock_timeout = 0;
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ASSERT_OK(TransactionDB::Open(opt, txn_opt, db_dir_, &db_));
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locker_.reset(
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new TransactionLockMgr(db_, txn_opt.num_stripes, txn_opt.max_num_locks,
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txn_opt.max_num_deadlocks, mutex_factory_));
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}
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void TearDown() override {
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delete db_;
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EXPECT_OK(test::DestroyDir(env_, db_dir_));
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}
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PessimisticTransaction* NewTxn(
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TransactionOptions txn_opt = TransactionOptions()) {
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Transaction* txn = db_->BeginTransaction(WriteOptions(), txn_opt);
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return reinterpret_cast<PessimisticTransaction*>(txn);
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}
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protected:
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Env* env_;
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std::unique_ptr<TransactionLockMgr> locker_;
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private:
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std::string db_dir_;
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std::shared_ptr<TransactionDBMutexFactory> mutex_factory_;
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TransactionDB* db_;
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};
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TEST_F(TransactionLockMgrTest, LockNonExistingColumnFamily) {
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locker_->RemoveColumnFamily(1024);
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auto txn = NewTxn();
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auto s = locker_->TryLock(txn, 1024, "k", env_, true);
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ASSERT_TRUE(s.IsInvalidArgument());
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ASSERT_STREQ(s.getState(), "Column family id not found: 1024");
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delete txn;
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}
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TEST_F(TransactionLockMgrTest, LockStatus) {
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locker_->AddColumnFamily(1024);
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locker_->AddColumnFamily(2048);
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auto txn1 = NewTxn();
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ASSERT_OK(locker_->TryLock(txn1, 1024, "k1", env_, true));
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ASSERT_OK(locker_->TryLock(txn1, 2048, "k1", env_, true));
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auto txn2 = NewTxn();
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ASSERT_OK(locker_->TryLock(txn2, 1024, "k2", env_, false));
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ASSERT_OK(locker_->TryLock(txn2, 2048, "k2", env_, false));
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auto s = locker_->GetLockStatusData();
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ASSERT_EQ(s.size(), 4u);
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for (uint32_t cf_id : {1024, 2048}) {
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ASSERT_EQ(s.count(cf_id), 2u);
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auto range = s.equal_range(cf_id);
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for (auto it = range.first; it != range.second; it++) {
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ASSERT_TRUE(it->second.key == "k1" || it->second.key == "k2");
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if (it->second.key == "k1") {
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ASSERT_EQ(it->second.exclusive, true);
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ASSERT_EQ(it->second.ids.size(), 1u);
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ASSERT_EQ(it->second.ids[0], txn1->GetID());
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} else if (it->second.key == "k2") {
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ASSERT_EQ(it->second.exclusive, false);
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ASSERT_EQ(it->second.ids.size(), 1u);
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ASSERT_EQ(it->second.ids[0], txn2->GetID());
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}
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}
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}
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delete txn1;
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delete txn2;
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}
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TEST_F(TransactionLockMgrTest, UnlockExclusive) {
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locker_->AddColumnFamily(1);
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auto txn1 = NewTxn();
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ASSERT_OK(locker_->TryLock(txn1, 1, "k", env_, true));
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locker_->UnLock(txn1, 1, "k", env_);
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auto txn2 = NewTxn();
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ASSERT_OK(locker_->TryLock(txn2, 1, "k", env_, true));
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delete txn1;
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delete txn2;
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}
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TEST_F(TransactionLockMgrTest, UnlockShared) {
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locker_->AddColumnFamily(1);
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auto txn1 = NewTxn();
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ASSERT_OK(locker_->TryLock(txn1, 1, "k", env_, false));
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locker_->UnLock(txn1, 1, "k", env_);
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auto txn2 = NewTxn();
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ASSERT_OK(locker_->TryLock(txn2, 1, "k", env_, true));
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delete txn1;
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delete txn2;
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}
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TEST_F(TransactionLockMgrTest, ReentrantExclusiveLock) {
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// Tests that a txn can acquire exclusive lock on the same key repeatedly.
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locker_->AddColumnFamily(1);
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auto txn = NewTxn();
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ASSERT_OK(locker_->TryLock(txn, 1, "k", env_, true));
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ASSERT_OK(locker_->TryLock(txn, 1, "k", env_, true));
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delete txn;
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}
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TEST_F(TransactionLockMgrTest, ReentrantSharedLock) {
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// Tests that a txn can acquire shared lock on the same key repeatedly.
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locker_->AddColumnFamily(1);
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auto txn = NewTxn();
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ASSERT_OK(locker_->TryLock(txn, 1, "k", env_, false));
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ASSERT_OK(locker_->TryLock(txn, 1, "k", env_, false));
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delete txn;
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}
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TEST_F(TransactionLockMgrTest, LockUpgrade) {
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// Tests that a txn can upgrade from a shared lock to an exclusive lock.
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locker_->AddColumnFamily(1);
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auto txn = NewTxn();
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ASSERT_OK(locker_->TryLock(txn, 1, "k", env_, false));
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ASSERT_OK(locker_->TryLock(txn, 1, "k", env_, true));
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delete txn;
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}
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TEST_F(TransactionLockMgrTest, LockDowngrade) {
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// Tests that a txn can acquire a shared lock after acquiring an exclusive
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// lock on the same key.
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locker_->AddColumnFamily(1);
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auto txn = NewTxn();
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ASSERT_OK(locker_->TryLock(txn, 1, "k", env_, true));
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ASSERT_OK(locker_->TryLock(txn, 1, "k", env_, false));
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delete txn;
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}
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TEST_F(TransactionLockMgrTest, LockConflict) {
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// Tests that lock conflicts lead to lock timeout.
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locker_->AddColumnFamily(1);
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auto txn1 = NewTxn();
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auto txn2 = NewTxn();
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{
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// exclusive-exclusive conflict.
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ASSERT_OK(locker_->TryLock(txn1, 1, "k1", env_, true));
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auto s = locker_->TryLock(txn2, 1, "k1", env_, true);
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ASSERT_TRUE(s.IsTimedOut());
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}
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{
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// exclusive-shared conflict.
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ASSERT_OK(locker_->TryLock(txn1, 1, "k2", env_, true));
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auto s = locker_->TryLock(txn2, 1, "k2", env_, false);
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ASSERT_TRUE(s.IsTimedOut());
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}
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{
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// shared-exclusive conflict.
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ASSERT_OK(locker_->TryLock(txn1, 1, "k2", env_, false));
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auto s = locker_->TryLock(txn2, 1, "k2", env_, true);
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ASSERT_TRUE(s.IsTimedOut());
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}
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delete txn1;
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delete txn2;
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}
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port::Thread BlockUntilWaitingTxn(std::function<void()> f) {
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std::atomic<bool> reached(false);
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ROCKSDB_NAMESPACE::SyncPoint::GetInstance()->SetCallBack(
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"TransactionLockMgr::AcquireWithTimeout:WaitingTxn",
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[&](void* /*arg*/) { reached.store(true); });
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ROCKSDB_NAMESPACE::SyncPoint::GetInstance()->EnableProcessing();
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port::Thread t(f);
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while (!reached.load()) {
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std::this_thread::sleep_for(std::chrono::milliseconds(100));
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}
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ROCKSDB_NAMESPACE::SyncPoint::GetInstance()->DisableProcessing();
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ROCKSDB_NAMESPACE::SyncPoint::GetInstance()->ClearAllCallBacks();
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return t;
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}
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TEST_F(TransactionLockMgrTest, SharedLocks) {
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// Tests that shared locks can be concurrently held by multiple transactions.
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locker_->AddColumnFamily(1);
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auto txn1 = NewTxn();
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auto txn2 = NewTxn();
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ASSERT_OK(locker_->TryLock(txn1, 1, "k", env_, false));
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ASSERT_OK(locker_->TryLock(txn2, 1, "k", env_, false));
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delete txn1;
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delete txn2;
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}
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TEST_F(TransactionLockMgrTest, Deadlock) {
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// Tests that deadlock can be detected.
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// Deadlock scenario:
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// txn1 exclusively locks k1, and wants to lock k2;
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// txn2 exclusively locks k2, and wants to lock k1.
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locker_->AddColumnFamily(1);
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TransactionOptions txn_opt;
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txn_opt.deadlock_detect = true;
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txn_opt.lock_timeout = 1000000;
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auto txn1 = NewTxn(txn_opt);
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auto txn2 = NewTxn(txn_opt);
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ASSERT_OK(locker_->TryLock(txn1, 1, "k1", env_, true));
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ASSERT_OK(locker_->TryLock(txn2, 1, "k2", env_, true));
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// txn1 tries to lock k2, will block forever.
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port::Thread t = BlockUntilWaitingTxn([&]() {
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// block because txn2 is holding a lock on k2.
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locker_->TryLock(txn1, 1, "k2", env_, true);
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});
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auto s = locker_->TryLock(txn2, 1, "k1", env_, true);
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ASSERT_TRUE(s.IsBusy());
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ASSERT_EQ(s.subcode(), Status::SubCode::kDeadlock);
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std::vector<DeadlockPath> deadlock_paths = locker_->GetDeadlockInfoBuffer();
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ASSERT_EQ(deadlock_paths.size(), 1u);
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ASSERT_FALSE(deadlock_paths[0].limit_exceeded);
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std::vector<DeadlockInfo> deadlocks = deadlock_paths[0].path;
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ASSERT_EQ(deadlocks.size(), 2u);
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ASSERT_EQ(deadlocks[0].m_txn_id, txn1->GetID());
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ASSERT_EQ(deadlocks[0].m_cf_id, 1u);
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ASSERT_TRUE(deadlocks[0].m_exclusive);
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ASSERT_EQ(deadlocks[0].m_waiting_key, "k2");
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ASSERT_EQ(deadlocks[1].m_txn_id, txn2->GetID());
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ASSERT_EQ(deadlocks[1].m_cf_id, 1u);
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ASSERT_TRUE(deadlocks[1].m_exclusive);
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ASSERT_EQ(deadlocks[1].m_waiting_key, "k1");
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locker_->UnLock(txn2, 1, "k2", env_);
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t.join();
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delete txn2;
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delete txn1;
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}
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TEST_F(TransactionLockMgrTest, DeadlockDepthExceeded) {
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// Tests that when detecting deadlock, if the detection depth is exceeded,
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// it's also viewed as deadlock.
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locker_->AddColumnFamily(1);
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TransactionOptions txn_opt;
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txn_opt.deadlock_detect = true;
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txn_opt.deadlock_detect_depth = 1;
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txn_opt.lock_timeout = 1000000;
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auto txn1 = NewTxn(txn_opt);
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auto txn2 = NewTxn(txn_opt);
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auto txn3 = NewTxn(txn_opt);
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auto txn4 = NewTxn(txn_opt);
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// "a ->(k) b" means transaction a is waiting for transaction b to release
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// the held lock on key k.
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// txn4 ->(k3) -> txn3 ->(k2) txn2 ->(k1) txn1
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// txn3's deadlock detection will exceed the detection depth 1,
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// which will be viewed as a deadlock.
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// NOTE:
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// txn4 ->(k3) -> txn3 must be set up before
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// txn3 ->(k2) -> txn2, because to trigger deadlock detection for txn3,
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// it must have another txn waiting on it, which is txn4 in this case.
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ASSERT_OK(locker_->TryLock(txn1, 1, "k1", env_, true));
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port::Thread t1 = BlockUntilWaitingTxn([&]() {
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ASSERT_OK(locker_->TryLock(txn2, 1, "k2", env_, true));
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// block because txn1 is holding a lock on k1.
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locker_->TryLock(txn2, 1, "k1", env_, true);
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});
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ASSERT_OK(locker_->TryLock(txn3, 1, "k3", env_, true));
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port::Thread t2 = BlockUntilWaitingTxn([&]() {
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// block because txn3 is holding a lock on k1.
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locker_->TryLock(txn4, 1, "k3", env_, true);
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});
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auto s = locker_->TryLock(txn3, 1, "k2", env_, true);
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ASSERT_TRUE(s.IsBusy());
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ASSERT_EQ(s.subcode(), Status::SubCode::kDeadlock);
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std::vector<DeadlockPath> deadlock_paths = locker_->GetDeadlockInfoBuffer();
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ASSERT_EQ(deadlock_paths.size(), 1u);
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ASSERT_TRUE(deadlock_paths[0].limit_exceeded);
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locker_->UnLock(txn1, 1, "k1", env_);
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locker_->UnLock(txn3, 1, "k3", env_);
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t1.join();
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t2.join();
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delete txn4;
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delete txn3;
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delete txn2;
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delete txn1;
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}
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} // namespace ROCKSDB_NAMESPACE
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int main(int argc, char** argv) {
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ROCKSDB_NAMESPACE::port::InstallStackTraceHandler();
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::testing::InitGoogleTest(&argc, argv);
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return RUN_ALL_TESTS();
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}
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#else
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#include <stdio.h>
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int main(int /*argc*/, char** /*argv*/) {
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fprintf(stderr,
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"SKIPPED because Transactions are not supported in ROCKSDB_LITE\n");
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return 0;
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}
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#endif // ROCKSDB_LITE
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