// Copyright (c) 2020-present, Facebook, Inc. All rights reserved. // This source code is licensed under both the GPLv2 (found in the // COPYING file in the root directory) and Apache 2.0 License // (found in the LICENSE.Apache file in the root directory). #ifndef ROCKSDB_LITE #include "utilities/transactions/lock/point/point_lock_manager_test.h" namespace ROCKSDB_NAMESPACE { // This test is not applicable for Range Lock manager as Range Lock Manager // operates on Column Families, not their ids. TEST_F(PointLockManagerTest, LockNonExistingColumnFamily) { MockColumnFamilyHandle cf(1024); locker_->RemoveColumnFamily(&cf); auto txn = NewTxn(); auto s = locker_->TryLock(txn, 1024, "k", env_, true); ASSERT_TRUE(s.IsInvalidArgument()); ASSERT_STREQ(s.getState(), "Column family id not found: 1024"); delete txn; } TEST_F(PointLockManagerTest, LockStatus) { MockColumnFamilyHandle cf1(1024), cf2(2048); locker_->AddColumnFamily(&cf1); locker_->AddColumnFamily(&cf2); auto txn1 = NewTxn(); ASSERT_OK(locker_->TryLock(txn1, 1024, "k1", env_, true)); ASSERT_OK(locker_->TryLock(txn1, 2048, "k1", env_, true)); auto txn2 = NewTxn(); ASSERT_OK(locker_->TryLock(txn2, 1024, "k2", env_, false)); ASSERT_OK(locker_->TryLock(txn2, 2048, "k2", env_, false)); auto s = locker_->GetPointLockStatus(); ASSERT_EQ(s.size(), 4u); for (uint32_t cf_id : {1024, 2048}) { ASSERT_EQ(s.count(cf_id), 2u); auto range = s.equal_range(cf_id); for (auto it = range.first; it != range.second; it++) { ASSERT_TRUE(it->second.key == "k1" || it->second.key == "k2"); if (it->second.key == "k1") { ASSERT_EQ(it->second.exclusive, true); ASSERT_EQ(it->second.ids.size(), 1u); ASSERT_EQ(it->second.ids[0], txn1->GetID()); } else if (it->second.key == "k2") { ASSERT_EQ(it->second.exclusive, false); ASSERT_EQ(it->second.ids.size(), 1u); ASSERT_EQ(it->second.ids[0], txn2->GetID()); } } } // Cleanup locker_->UnLock(txn1, 1024, "k1", env_); locker_->UnLock(txn1, 2048, "k1", env_); locker_->UnLock(txn2, 1024, "k2", env_); locker_->UnLock(txn2, 2048, "k2", env_); delete txn1; delete txn2; } TEST_F(PointLockManagerTest, UnlockExclusive) { MockColumnFamilyHandle cf(1); locker_->AddColumnFamily(&cf); auto txn1 = NewTxn(); ASSERT_OK(locker_->TryLock(txn1, 1, "k", env_, true)); locker_->UnLock(txn1, 1, "k", env_); auto txn2 = NewTxn(); ASSERT_OK(locker_->TryLock(txn2, 1, "k", env_, true)); // Cleanup locker_->UnLock(txn2, 1, "k", env_); delete txn1; delete txn2; } TEST_F(PointLockManagerTest, UnlockShared) { MockColumnFamilyHandle cf(1); locker_->AddColumnFamily(&cf); auto txn1 = NewTxn(); ASSERT_OK(locker_->TryLock(txn1, 1, "k", env_, false)); locker_->UnLock(txn1, 1, "k", env_); auto txn2 = NewTxn(); ASSERT_OK(locker_->TryLock(txn2, 1, "k", env_, true)); // Cleanup locker_->UnLock(txn2, 1, "k", env_); delete txn1; delete txn2; } // This test doesn't work with Range Lock Manager, because Range Lock Manager // doesn't support deadlock_detect_depth. TEST_F(PointLockManagerTest, DeadlockDepthExceeded) { // Tests that when detecting deadlock, if the detection depth is exceeded, // it's also viewed as deadlock. MockColumnFamilyHandle cf(1); locker_->AddColumnFamily(&cf); TransactionOptions txn_opt; txn_opt.deadlock_detect = true; txn_opt.deadlock_detect_depth = 1; txn_opt.lock_timeout = 1000000; auto txn1 = NewTxn(txn_opt); auto txn2 = NewTxn(txn_opt); auto txn3 = NewTxn(txn_opt); auto txn4 = NewTxn(txn_opt); // "a ->(k) b" means transaction a is waiting for transaction b to release // the held lock on key k. // txn4 ->(k3) -> txn3 ->(k2) txn2 ->(k1) txn1 // txn3's deadlock detection will exceed the detection depth 1, // which will be viewed as a deadlock. // NOTE: // txn4 ->(k3) -> txn3 must be set up before // txn3 ->(k2) -> txn2, because to trigger deadlock detection for txn3, // it must have another txn waiting on it, which is txn4 in this case. ASSERT_OK(locker_->TryLock(txn1, 1, "k1", env_, true)); port::Thread t1 = BlockUntilWaitingTxn(wait_sync_point_name_, [&]() { ASSERT_OK(locker_->TryLock(txn2, 1, "k2", env_, true)); // block because txn1 is holding a lock on k1. locker_->TryLock(txn2, 1, "k1", env_, true); }); ASSERT_OK(locker_->TryLock(txn3, 1, "k3", env_, true)); port::Thread t2 = BlockUntilWaitingTxn(wait_sync_point_name_, [&]() { // block because txn3 is holding a lock on k1. locker_->TryLock(txn4, 1, "k3", env_, true); }); auto s = locker_->TryLock(txn3, 1, "k2", env_, true); ASSERT_TRUE(s.IsBusy()); ASSERT_EQ(s.subcode(), Status::SubCode::kDeadlock); std::vector deadlock_paths = locker_->GetDeadlockInfoBuffer(); ASSERT_EQ(deadlock_paths.size(), 1u); ASSERT_TRUE(deadlock_paths[0].limit_exceeded); locker_->UnLock(txn1, 1, "k1", env_); locker_->UnLock(txn3, 1, "k3", env_); t1.join(); t2.join(); delete txn4; delete txn3; delete txn2; delete txn1; } INSTANTIATE_TEST_CASE_P(PointLockManager, AnyLockManagerTest, ::testing::Values(nullptr)); } // namespace ROCKSDB_NAMESPACE int main(int argc, char** argv) { ROCKSDB_NAMESPACE::port::InstallStackTraceHandler(); ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); } #else #include int main(int /*argc*/, char** /*argv*/) { fprintf(stderr, "SKIPPED because Transactions are not supported in ROCKSDB_LITE\n"); return 0; } #endif // ROCKSDB_LITE