// // ReaderWriterLockSlimTest.cs // // Authors: // Marek Safar (marek.safar@gmail.com) // // Copyright (C) 2009 Novell, Inc (http://www.novell.com) // // Permission is hereby granted, free of charge, to any person obtaining // a copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to // permit persons to whom the Software is furnished to do so, subject to // the following conditions: // // The above copyright notice and this permission notice shall be // included in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, // EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND // NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE // LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION // OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // using System; using NUnit.Framework; using System.Threading; using System.Linq; #if NET_4_0 using System.Threading.Tasks; #endif namespace MonoTests.System.Threading { [TestFixture] public class ReaderWriterLockSlimTests { [Test] public void DefaultValues () { var v = new ReaderWriterLockSlim (); Assert.AreEqual (0, v.CurrentReadCount, "1"); Assert.AreEqual (false, v.IsReadLockHeld, "2"); Assert.AreEqual (false, v.IsUpgradeableReadLockHeld, "3"); Assert.AreEqual (false, v.IsWriteLockHeld, "4"); Assert.AreEqual (LockRecursionPolicy.NoRecursion, v.RecursionPolicy, "5"); Assert.AreEqual (0, v.RecursiveReadCount, "6"); Assert.AreEqual (0, v.RecursiveUpgradeCount, "7"); Assert.AreEqual (0, v.RecursiveWriteCount, "8"); Assert.AreEqual (0, v.WaitingReadCount, "9"); Assert.AreEqual (0, v.WaitingUpgradeCount, "10"); Assert.AreEqual (0, v.WaitingWriteCount, "11"); } [Test] public void Dispose_Errors () { var v = new ReaderWriterLockSlim (); v.Dispose (); try { v.EnterUpgradeableReadLock (); Assert.Fail ("1"); } catch (ObjectDisposedException) { } try { v.EnterReadLock (); Assert.Fail ("2"); } catch (ObjectDisposedException) { } try { v.EnterWriteLock (); Assert.Fail ("3"); } catch (ObjectDisposedException) { } } [Test] public void Dispose_WithReadLock () { var rwl = new ReaderWriterLockSlim (); rwl.EnterReadLock (); try { rwl.Dispose (); Assert.Fail ("1"); } catch (SynchronizationLockException) { } } [Test] public void Dispose_WithWriteLock () { var rwl = new ReaderWriterLockSlim (); rwl.EnterWriteLock (); try { rwl.Dispose (); Assert.Fail ("1"); } catch (SynchronizationLockException) { } } [Test] public void Dispose_UpgradeableReadLock () { var rwl = new ReaderWriterLockSlim (); rwl.EnterUpgradeableReadLock (); try { rwl.Dispose (); Assert.Fail ("1"); } catch (SynchronizationLockException) { } } [Test] public void TryEnterReadLock_OutOfRange () { var v = new ReaderWriterLockSlim (); try { v.TryEnterReadLock (-2); Assert.Fail ("1"); } catch (ArgumentOutOfRangeException) { } try { v.TryEnterReadLock (TimeSpan.MaxValue); Assert.Fail ("2"); } catch (ArgumentOutOfRangeException) { } try { v.TryEnterReadLock (TimeSpan.MinValue); Assert.Fail ("3"); } catch (ArgumentOutOfRangeException) { } } [Test] public void TryEnterUpgradeableReadLock_OutOfRange () { var v = new ReaderWriterLockSlim (); try { v.TryEnterUpgradeableReadLock (-2); Assert.Fail ("1"); } catch (ArgumentOutOfRangeException) { } try { v.TryEnterUpgradeableReadLock (TimeSpan.MaxValue); Assert.Fail ("2"); } catch (ArgumentOutOfRangeException) { } try { v.TryEnterUpgradeableReadLock (TimeSpan.MinValue); Assert.Fail ("3"); } catch (ArgumentOutOfRangeException) { } } [Test] public void TryEnterWriteLock_OutOfRange () { var v = new ReaderWriterLockSlim (); try { v.TryEnterWriteLock (-2); Assert.Fail ("1"); } catch (ArgumentOutOfRangeException) { } try { v.TryEnterWriteLock (TimeSpan.MaxValue); Assert.Fail ("2"); } catch (ArgumentOutOfRangeException) { } try { v.TryEnterWriteLock (TimeSpan.MinValue); Assert.Fail ("3"); } catch (ArgumentOutOfRangeException) { } } [Test, ExpectedException (typeof (SynchronizationLockException))] public void ExitReadLock () { var v = new ReaderWriterLockSlim (); v.ExitReadLock (); } [Test, ExpectedException (typeof (SynchronizationLockException))] public void ExitWriteLock () { var v = new ReaderWriterLockSlim (); v.ExitWriteLock (); } [Test] public void EnterReadLock_NoRecursionError () { var v = new ReaderWriterLockSlim (); v.EnterReadLock (); Assert.AreEqual (1, v.RecursiveReadCount); try { v.EnterReadLock (); Assert.Fail ("1"); } catch (LockRecursionException) { } try { v.EnterWriteLock (); Assert.Fail ("2"); } catch (LockRecursionException) { } } [Test] public void EnterReadLock () { var v = new ReaderWriterLockSlim (); v.EnterReadLock (); Assert.IsTrue (v.IsReadLockHeld, "A"); Assert.AreEqual (0, v.RecursiveWriteCount, "A1"); Assert.AreEqual (1, v.RecursiveReadCount, "A2"); Assert.AreEqual (0, v.RecursiveUpgradeCount, "A3"); Assert.AreEqual (0, v.WaitingReadCount, "A4"); Assert.AreEqual (0, v.WaitingUpgradeCount, "A5"); Assert.AreEqual (0, v.WaitingWriteCount, "A6"); v.ExitReadLock (); v.EnterReadLock (); Assert.IsTrue (v.IsReadLockHeld, "B"); Assert.AreEqual (0, v.RecursiveWriteCount, "B1"); Assert.AreEqual (1, v.RecursiveReadCount, "B2"); Assert.AreEqual (0, v.RecursiveUpgradeCount, "B3"); Assert.AreEqual (0, v.WaitingReadCount, "B4"); Assert.AreEqual (0, v.WaitingUpgradeCount, "B5"); Assert.AreEqual (0, v.WaitingWriteCount, "B6"); v.ExitReadLock (); } [Test] public void EnterWriteLock_NoRecursionError () { var v = new ReaderWriterLockSlim (); v.EnterWriteLock (); Assert.AreEqual (1, v.RecursiveWriteCount); try { v.EnterWriteLock (); Assert.Fail ("1"); } catch (LockRecursionException) { } try { v.EnterReadLock (); Assert.Fail ("2"); } catch (LockRecursionException) { } } [Test] public void EnterWriteLock () { var v = new ReaderWriterLockSlim (); v.EnterWriteLock (); Assert.IsTrue (v.IsWriteLockHeld, "A"); Assert.AreEqual (1, v.RecursiveWriteCount, "A1"); Assert.AreEqual (0, v.RecursiveReadCount, "A2"); Assert.AreEqual (0, v.RecursiveUpgradeCount, "A3"); Assert.AreEqual (0, v.WaitingReadCount, "A4"); Assert.AreEqual (0, v.WaitingUpgradeCount, "A5"); Assert.AreEqual (0, v.WaitingWriteCount, "A6"); v.ExitWriteLock (); v.EnterWriteLock (); Assert.IsTrue (v.IsWriteLockHeld, "B"); Assert.AreEqual (1, v.RecursiveWriteCount, "B1"); Assert.AreEqual (0, v.RecursiveReadCount, "B2"); Assert.AreEqual (0, v.RecursiveUpgradeCount, "B3"); Assert.AreEqual (0, v.WaitingReadCount, "B4"); Assert.AreEqual (0, v.WaitingUpgradeCount, "B5"); Assert.AreEqual (0, v.WaitingWriteCount, "B6"); v.ExitWriteLock (); } [Test] public void EnterUpgradeableReadLock_NoRecursionError () { var v = new ReaderWriterLockSlim (); v.EnterUpgradeableReadLock (); Assert.AreEqual (1, v.RecursiveUpgradeCount); try { v.EnterUpgradeableReadLock (); Assert.Fail ("2"); } catch (LockRecursionException) { } } [Test] public void EnterUpgradeableReadLock () { var v = new ReaderWriterLockSlim (); v.EnterUpgradeableReadLock (); Assert.IsTrue (v.IsUpgradeableReadLockHeld, "A"); Assert.AreEqual (0, v.RecursiveWriteCount, "A1"); Assert.AreEqual (0, v.RecursiveReadCount, "A2"); Assert.AreEqual (1, v.RecursiveUpgradeCount, "A3"); Assert.AreEqual (0, v.WaitingReadCount, "A4"); Assert.AreEqual (0, v.WaitingUpgradeCount, "A5"); Assert.AreEqual (0, v.WaitingWriteCount, "A6"); v.ExitUpgradeableReadLock (); v.EnterUpgradeableReadLock (); Assert.IsTrue (v.IsUpgradeableReadLockHeld, "B"); Assert.AreEqual (0, v.RecursiveWriteCount, "B1"); Assert.AreEqual (0, v.RecursiveReadCount, "B2"); Assert.AreEqual (1, v.RecursiveUpgradeCount, "B3"); Assert.AreEqual (0, v.WaitingReadCount, "B4"); Assert.AreEqual (0, v.WaitingUpgradeCount, "B5"); Assert.AreEqual (0, v.WaitingWriteCount, "B6"); v.EnterReadLock (); v.ExitUpgradeableReadLock (); Assert.IsTrue (v.IsReadLockHeld, "C"); Assert.AreEqual (0, v.RecursiveWriteCount, "C1"); Assert.AreEqual (1, v.RecursiveReadCount, "C2"); Assert.AreEqual (0, v.RecursiveUpgradeCount, "C3"); Assert.AreEqual (0, v.WaitingReadCount, "C4"); Assert.AreEqual (0, v.WaitingUpgradeCount, "C5"); Assert.AreEqual (0, v.WaitingWriteCount, "C6"); v.ExitReadLock (); } [Test] public void EnterReadLock_MultiRead () { var v = new ReaderWriterLockSlim (); int local = 10; var r = from i in Enumerable.Range (1, 30) select new Thread (() => { // Just to cause some contention Thread.Sleep (100); v.EnterReadLock (); Assert.AreEqual (10, local); }); var threads = r.ToList (); foreach (var t in threads) { t.Start (); } foreach (var t in threads) { // Console.WriteLine (t.ThreadState); t.Join (); } } [Test] public void TryEnterWriteLock_WhileReading () { var v = new ReaderWriterLockSlim (); AutoResetEvent ev = new AutoResetEvent (false); AutoResetEvent ev2 = new AutoResetEvent (false); Thread t1 = new Thread (() => { v.EnterReadLock (); ev2.Set (); ev.WaitOne (); v.ExitReadLock (); }); t1.Start (); ev2.WaitOne (); Assert.IsFalse (v.TryEnterWriteLock (100)); ev.Set (); t1.Join (); Assert.IsTrue (v.TryEnterWriteLock (100)); } [Test] public void EnterWriteLock_MultiRead () { var v = new ReaderWriterLockSlim (); int local = 10; var r = from i in Enumerable.Range (1, 10) select new Thread (() => { v.EnterReadLock (); Assert.AreEqual (11, local); }); v.EnterWriteLock (); var threads = r.ToList (); foreach (var t in threads) { t.Start (); } Thread.Sleep (200); local = 11; // FIXME: Don't rely on Thread.Sleep (200) Assert.AreEqual (0, v.WaitingWriteCount, "in waiting write"); Assert.AreEqual (10, v.WaitingReadCount, "in waiting read"); Assert.AreEqual (0, v.WaitingUpgradeCount, "in waiting upgrade"); v.ExitWriteLock (); foreach (var t in threads) { // Console.WriteLine (t.ThreadState); t.Join (); } } [Test] public void EnterWriteLock_After_ExitUpgradeableReadLock () { var v = new ReaderWriterLockSlim (); v.EnterUpgradeableReadLock (); Assert.IsTrue (v.TryEnterWriteLock (100)); v.ExitWriteLock (); v.ExitUpgradeableReadLock (); Assert.IsTrue (v.TryEnterWriteLock (100)); v.ExitWriteLock (); } #if NET_4_0 [Test] public void EnterWriteLockWhileInUpgradeAndOtherWaiting () { var v = new ReaderWriterLockSlim (); var task2 = new Task(() => { v.EnterWriteLock(); v.ExitWriteLock(); }); var task1 = new Task(() => { v.EnterUpgradeableReadLock (); task2.Start (); Thread.Sleep (100); v.EnterWriteLock (); v.ExitWriteLock (); v.ExitUpgradeableReadLock (); }); task1.Start (); Assert.IsTrue (task1.Wait (500)); } #endif [Test] public void RecursiveReadLockTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); Assert.IsTrue (v.TryEnterReadLock (100), "#1"); Assert.IsTrue (v.TryEnterReadLock (100), "#2"); Assert.IsTrue (v.TryEnterReadLock (100), "#3"); Assert.AreEqual (3, v.RecursiveReadCount); } [Test] public void RecursiveReadPlusWriteLockTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); try { v.EnterReadLock (); v.EnterWriteLock (); Assert.Fail ("1"); } catch (LockRecursionException ex) { Assert.IsNotNull (ex, "#1"); } } [Test] public void RecursiveReadPlusUpgradeableLockTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); try { v.EnterReadLock (); v.EnterUpgradeableReadLock (); Assert.Fail ("1"); } catch (LockRecursionException ex) { Assert.IsNotNull (ex, "#1"); } } [Test] public void RecursiveWriteLockTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); Assert.IsTrue (v.TryEnterWriteLock (100), "#1"); Assert.IsTrue (v.TryEnterWriteLock (100), "#2"); Assert.IsTrue (v.TryEnterWriteLock (100), "#3"); Assert.AreEqual (3, v.RecursiveWriteCount); } [Test] public void RecursiveWritePlusReadLockTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); Assert.IsTrue (v.TryEnterWriteLock (100), "#1"); Assert.AreEqual (1, v.RecursiveWriteCount, "1b"); Assert.AreEqual (0, v.RecursiveReadCount, "1c"); Assert.IsTrue (v.TryEnterReadLock (100), "#2"); Assert.AreEqual (1, v.RecursiveWriteCount, "2b"); Assert.AreEqual (1, v.RecursiveReadCount, "2c"); Assert.IsTrue (v.TryEnterReadLock (100), "#3"); Assert.AreEqual (1, v.RecursiveWriteCount, "3b"); Assert.AreEqual (2, v.RecursiveReadCount, "3c"); v.ExitReadLock (); Assert.AreEqual (1, v.RecursiveWriteCount, "4b"); Assert.AreEqual (1, v.RecursiveReadCount, "4c"); } [Test] public void RecursiveUpgradeableReadLockTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); Assert.IsTrue (v.TryEnterUpgradeableReadLock (100), "#1"); Assert.IsTrue (v.TryEnterUpgradeableReadLock (100), "#2"); Assert.IsTrue (v.TryEnterUpgradeableReadLock (100), "#3"); Assert.AreEqual (3, v.RecursiveUpgradeCount); } [Test] public void RecursiveReadPropertiesTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); v.EnterReadLock (); v.EnterReadLock (); Assert.AreEqual (true, v.IsReadLockHeld, "#1a"); Assert.AreEqual (1, v.CurrentReadCount, "#2a"); Assert.AreEqual (2, v.RecursiveReadCount, "#3a"); bool rLock = true; int cReadCount = -1, rReadCount = -1; Thread t = new Thread ((_) => { rLock = v.IsReadLockHeld; cReadCount = v.CurrentReadCount; rReadCount = v.RecursiveReadCount; }); t.Start (); t.Join (); Assert.AreEqual (false, rLock, "#1b"); Assert.AreEqual (1, cReadCount, "#2b"); Assert.AreEqual (0, rReadCount, "#3b"); } [Test] public void RecursiveUpgradePropertiesTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); v.EnterUpgradeableReadLock (); v.EnterUpgradeableReadLock (); Assert.AreEqual (true, v.IsUpgradeableReadLockHeld, "#1a"); Assert.AreEqual (false, v.IsReadLockHeld, "#11a"); Assert.AreEqual (0, v.CurrentReadCount, "#2a"); Assert.AreEqual (2, v.RecursiveUpgradeCount, "#3a"); bool upLock = false, rLock = false; int rCount = -1, rUCount = -1; Thread t = new Thread ((_) => { upLock = v.IsUpgradeableReadLockHeld; rLock = v.IsReadLockHeld; rCount = v.CurrentReadCount; rUCount = v.RecursiveUpgradeCount; }); t.Start (); t.Join (); Assert.AreEqual (false, upLock, "#1b"); Assert.AreEqual (false, rLock, "#11b"); Assert.AreEqual (0, rCount, "#2b"); Assert.AreEqual (0, rUCount, "#3b"); } [Test] public void RecursiveWritePropertiesTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); v.EnterWriteLock (); v.EnterWriteLock (); Assert.AreEqual (true, v.IsWriteLockHeld, "#1a"); Assert.AreEqual (2, v.RecursiveWriteCount, "#3a"); bool wLock = false; int rWrite = -1; Thread t = new Thread ((_) => { wLock = v.IsWriteLockHeld; rWrite = v.RecursiveWriteCount; }); t.Start (); t.Join (); Assert.AreEqual (false, wLock, "#1b"); Assert.AreEqual (0, rWrite, "#3b"); } [Test] public void RecursiveEnterExitReadTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); v.EnterReadLock (); v.EnterReadLock (); v.EnterReadLock (); Assert.IsTrue (v.IsReadLockHeld); Assert.AreEqual (3, v.RecursiveReadCount); v.ExitReadLock (); Assert.IsTrue (v.IsReadLockHeld); Assert.AreEqual (2, v.RecursiveReadCount); } [Test] public void RecursiveEnterExitWriteTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); v.EnterWriteLock (); v.EnterWriteLock (); v.EnterWriteLock (); Assert.IsTrue (v.IsWriteLockHeld); Assert.AreEqual (3, v.RecursiveWriteCount); v.ExitWriteLock (); v.ExitWriteLock (); Assert.IsTrue (v.IsWriteLockHeld); Assert.AreEqual (1, v.RecursiveWriteCount); } [Test] public void RecursiveEnterExitUpgradableTest () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); v.EnterUpgradeableReadLock (); v.EnterUpgradeableReadLock (); v.EnterUpgradeableReadLock (); Assert.IsTrue (v.IsUpgradeableReadLockHeld); Assert.AreEqual (3, v.RecursiveUpgradeCount); v.ExitUpgradeableReadLock (); Assert.IsTrue (v.IsUpgradeableReadLockHeld); Assert.AreEqual (2, v.RecursiveUpgradeCount); } [Test] public void RecursiveWriteUpgradeReadTest () { var rwlock = new ReaderWriterLockSlim(LockRecursionPolicy.SupportsRecursion); rwlock.EnterWriteLock (); Assert.IsTrue (rwlock.IsWriteLockHeld); rwlock.EnterUpgradeableReadLock (); Assert.IsTrue (rwlock.IsUpgradeableReadLockHeld); rwlock.EnterReadLock (); Assert.IsTrue (rwlock.IsReadLockHeld); rwlock.ExitUpgradeableReadLock(); Assert.IsFalse (rwlock.IsUpgradeableReadLockHeld); Assert.IsTrue (rwlock.IsReadLockHeld); Assert.IsTrue (rwlock.IsWriteLockHeld); rwlock.ExitReadLock (); Assert.IsTrue (rwlock.IsWriteLockHeld); } [Test] public void RecursiveWriteUpgradeTest () { ReaderWriterLockSlim rwlock = new ReaderWriterLockSlim(LockRecursionPolicy.SupportsRecursion); rwlock.EnterWriteLock (); Assert.IsTrue (rwlock.IsWriteLockHeld); rwlock.EnterUpgradeableReadLock (); Assert.IsTrue (rwlock.IsUpgradeableReadLockHeld); rwlock.ExitUpgradeableReadLock (); Assert.IsFalse (rwlock.IsUpgradeableReadLockHeld); Assert.IsTrue (rwlock.IsWriteLockHeld); rwlock.ExitWriteLock (); Assert.IsFalse (rwlock.IsWriteLockHeld); rwlock.EnterWriteLock (); Assert.IsTrue (rwlock.IsWriteLockHeld); } [Test] public void RecursiveWriteReadAcquisitionInterleaving () { var v = new ReaderWriterLockSlim (LockRecursionPolicy.SupportsRecursion); v.EnterWriteLock (); Assert.IsTrue (v.IsWriteLockHeld, "#1"); bool result = true; var t = new Thread (delegate () { result = v.TryEnterReadLock (100); }); t.Start (); t.Join (); Assert.IsFalse (result, "#2"); v.ExitWriteLock (); t = new Thread (delegate () { result = v.TryEnterReadLock (100); }); t.Start (); t.Join (); Assert.IsTrue (result, "#3"); } } }