mirror of
https://github.com/facebook/rocksdb.git
synced 2024-12-03 05:54:17 +00:00
c7c7b07f06
Summary: Cleans up some of the dependencies on test code in the Makefile while building tools: - Moves the test::RandomString, DBBaseTest::RandomString into Random - Moves the test::RandomHumanReadableString into Random - Moves the DestroyDir method into file_utils - Moves the SetupSyncPointsToMockDirectIO into sync_point. - Moves the FaultInjection Env and FS classes under env These changes allow all of the tools to build without dependencies on test_util, thereby simplifying the build dependencies. By moving the FaultInjection code, the dependency in db_stress on different libraries for debug vs release was eliminated. Tested both release and debug builds via Make and CMake for both static and shared libraries. More work remains to clean up how the tools are built and remove some unnecessary dependencies. There is also more work that should be done to get the Makefile and CMake to align in their builds -- what is in the libraries and the sizes of the executables are different. Pull Request resolved: https://github.com/facebook/rocksdb/pull/7097 Reviewed By: riversand963 Differential Revision: D22463160 Pulled By: pdillinger fbshipit-source-id: e19462b53324ab3f0b7c72459dbc73165cc382b2
351 lines
10 KiB
C++
351 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 "file/file_util.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(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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