/** * Copyright (C) 2018-present MongoDB, Inc. * * This program is free software: you can redistribute it and/or modify * it under the terms of the Server Side Public License, version 1, * as published by MongoDB, Inc. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * Server Side Public License for more details. * * You should have received a copy of the Server Side Public License * along with this program. If not, see * . * * As a special exception, the copyright holders give permission to link the * code of portions of this program with the OpenSSL library under certain * conditions as described in each individual source file and distribute * linked combinations including the program with the OpenSSL library. You * must comply with the Server Side Public License in all respects for * all of the code used other than as permitted herein. If you modify file(s) * with this exception, you may extend this exception to your version of the * file(s), but you are not obligated to do so. If you do not wish to do so, * delete this exception statement from your version. If you delete this * exception statement from all source files in the program, then also delete * it in the license file. */ #include "mongo/db/concurrency/lock_manager_test_help.h" #include "mongo/unittest/unittest.h" namespace mongo { TEST(Deadlock, NoDeadlock) { const ResourceId resId(RESOURCE_DATABASE, std::string("A")); LockerForTests locker1(MODE_IS); LockerForTests locker2(MODE_IS); ASSERT_EQUALS(LOCK_OK, locker1.lockBegin(nullptr, resId, MODE_S)); ASSERT_EQUALS(LOCK_OK, locker2.lockBegin(nullptr, resId, MODE_S)); DeadlockDetector wfg1(*getGlobalLockManager(), &locker1); ASSERT(!wfg1.check().hasCycle()); DeadlockDetector wfg2(*getGlobalLockManager(), &locker2); ASSERT(!wfg2.check().hasCycle()); } TEST(Deadlock, Simple) { const ResourceId resIdA(RESOURCE_DATABASE, std::string("A")); const ResourceId resIdB(RESOURCE_DATABASE, std::string("B")); LockerForTests locker1(MODE_IX); LockerForTests locker2(MODE_IX); ASSERT_EQUALS(LOCK_OK, locker1.lockBegin(nullptr, resIdA, MODE_X)); ASSERT_EQUALS(LOCK_OK, locker2.lockBegin(nullptr, resIdB, MODE_X)); // 1 -> 2 ASSERT_EQUALS(LOCK_WAITING, locker1.lockBegin(nullptr, resIdB, MODE_X)); // 2 -> 1 ASSERT_EQUALS(LOCK_WAITING, locker2.lockBegin(nullptr, resIdA, MODE_X)); DeadlockDetector wfg1(*getGlobalLockManager(), &locker1); ASSERT(wfg1.check().hasCycle()); DeadlockDetector wfg2(*getGlobalLockManager(), &locker2); ASSERT(wfg2.check().hasCycle()); // Cleanup, so that LockerImpl doesn't complain about leaked locks locker1.unlock(resIdB); locker2.unlock(resIdA); } TEST(Deadlock, SimpleUpgrade) { const ResourceId resId(RESOURCE_DATABASE, std::string("A")); LockerForTests locker1(MODE_IX); LockerForTests locker2(MODE_IX); // Both acquire lock in intent mode ASSERT_EQUALS(LOCK_OK, locker1.lockBegin(nullptr, resId, MODE_IX)); ASSERT_EQUALS(LOCK_OK, locker2.lockBegin(nullptr, resId, MODE_IX)); // Both try to upgrade ASSERT_EQUALS(LOCK_WAITING, locker1.lockBegin(nullptr, resId, MODE_X)); ASSERT_EQUALS(LOCK_WAITING, locker2.lockBegin(nullptr, resId, MODE_X)); DeadlockDetector wfg1(*getGlobalLockManager(), &locker1); ASSERT(wfg1.check().hasCycle()); DeadlockDetector wfg2(*getGlobalLockManager(), &locker2); ASSERT(wfg2.check().hasCycle()); // Cleanup, so that LockerImpl doesn't complain about leaked locks locker1.unlock(resId); locker2.unlock(resId); } TEST(Deadlock, Indirect) { const ResourceId resIdA(RESOURCE_DATABASE, std::string("A")); const ResourceId resIdB(RESOURCE_DATABASE, std::string("B")); LockerForTests locker1(MODE_IX); LockerForTests locker2(MODE_IX); LockerForTests lockerIndirect(MODE_IX); ASSERT_EQUALS(LOCK_OK, locker1.lockBegin(nullptr, resIdA, MODE_X)); ASSERT_EQUALS(LOCK_OK, locker2.lockBegin(nullptr, resIdB, MODE_X)); // 1 -> 2 ASSERT_EQUALS(LOCK_WAITING, locker1.lockBegin(nullptr, resIdB, MODE_X)); // 2 -> 1 ASSERT_EQUALS(LOCK_WAITING, locker2.lockBegin(nullptr, resIdA, MODE_X)); // 3 -> 2 ASSERT_EQUALS(LOCK_WAITING, lockerIndirect.lockBegin(nullptr, resIdA, MODE_X)); DeadlockDetector wfg1(*getGlobalLockManager(), &locker1); ASSERT(wfg1.check().hasCycle()); DeadlockDetector wfg2(*getGlobalLockManager(), &locker2); ASSERT(wfg2.check().hasCycle()); // Indirect locker should not report the cycle since it does not participate in it DeadlockDetector wfgIndirect(*getGlobalLockManager(), &lockerIndirect); ASSERT(!wfgIndirect.check().hasCycle()); // Cleanup, so that LockerImpl doesn't complain about leaked locks locker1.unlock(resIdB); locker2.unlock(resIdA); } } // namespace mongo