/* * Copyright (c) 2016 - present Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. */ package codetoanalyze.java.checkers; import java.util.concurrent.locks.Lock; import java.util.concurrent.locks.ReadWriteLock; import java.util.concurrent.locks.ReentrantLock; import java.util.concurrent.locks.ReentrantReadWriteLock; @ThreadSafe public class Locks { Integer f; Lock mLock; ReadWriteLock mReadWriteLock; ReentrantLock mReentrantLock; ReentrantReadWriteLock mReentrantReadWriteLock; public void lockInOneBranchBad(boolean b) { if (b) { mLock.lock(); } f = 24; if (b) { mLock.unlock(); } } public void afterUnlockBad() { mLock.lock(); mLock.unlock(); f = 42; } public void afterReentrantLockUnlockBad() { mReentrantLock.lock(); mReentrantLock.unlock(); f = 42; } public void afterWriteLockUnlockBad() { mReentrantReadWriteLock.writeLock().lock(); mReentrantReadWriteLock.writeLock().unlock(); f = 42; } public void lockOk() { mLock.lock(); f = 42; mLock.unlock(); } public void lockBothBranchesOk(boolean b) { if (b) { mLock.lock(); } else { mLock.lock(); } f = 42; mLock.unlock(); } public void reentrantLockOk() { mReentrantLock.lock(); f = 42; mReentrantLock.unlock(); } public void rReentrantLockTryLockOk() { if (mReentrantLock.tryLock()) { f = 42; mReentrantLock.unlock(); } } public void reentrantLockInterruptiblyOk() throws InterruptedException { mReentrantLock.lockInterruptibly(); f = 42; mReentrantLock.unlock(); } private void acquireLock() { mLock.lock(); } public void acquireLockInCalleeOk() { acquireLock(); f = 42; mLock.unlock(); } public void writeLockOk() { mReadWriteLock.writeLock().lock(); f = 42; mReadWriteLock.writeLock().unlock(); } public void reentrantWriteLockOk() { mReentrantReadWriteLock.writeLock().lock(); f = 42; mReentrantReadWriteLock.writeLock().unlock(); } private void releaseLock() { mLock.unlock(); } // our "squish all locks into one" abstraction is not ideal here... public void FP_unlockOneLock() { mLock.lock(); mReentrantLock.lock(); mReentrantLock.unlock(); f = 42; mLock.unlock(); } // ... or here public void FN_releaseLockInCalleeBad() { mLock.lock(); releaseLock(); f = 42; } // we don't model the case where `tryLock` fails public void FN_withReentrantLockTryLockBad() { if (!mReentrantLock.tryLock()) { f = 42; } } // we shouldn't be able to write when holding a readLock public void FN_readLockOk() { mReentrantReadWriteLock.readLock().lock(); f = 42; mReentrantReadWriteLock.readLock().unlock(); } }