protected void TestAgainstTestFile(IHash a_hash, TestData a_test_data = null) { if (a_test_data == null) { a_test_data = TestData.Load(a_hash); } for (int i = 0; i < a_test_data.Count; i++) { string output_array = Converters.ConvertBytesToHexString(a_test_data.GetHash(i)); if (a_test_data.GetRepeat(i) != 1) { continue; } if (a_hash is IWithKey) { (a_hash as IWithKey).Key = a_test_data.GetKey(i); } Assert.AreEqual(output_array, a_hash.ComputeBytes(a_test_data.GetData(i)).ToString(), String.Format("{0}, {1}", a_hash.Name, i)); } }
protected void TestExtremelyLong() { const int SLEEP_TIME_MS = 10; int THREADS = System.Environment.ProcessorCount; const float TARGET_CPU_LOAD = 0.4f; Assert.IsTrue(THREADS <= System.Environment.ProcessorCount); ProgressIndicator pi = new ProgressIndicator("Crypto +4GB Test"); pi.AddLine(String.Format("Configuration: {0} threads, CPU Load: {1}%", THREADS, TARGET_CPU_LOAD * 100)); CancellationTokenSource src = new CancellationTokenSource(); Task regulator = Task.Factory.StartNew(token => { PerformanceCounter pc = new PerformanceCounter("Processor", "% Processor Time", "_Total"); List <float> cpu_load = new List <float>(); for (;;) { const int PROBE_DELTA_MS = 200; const int PROBE_COUNT = 30; const int REGULATE_COUNT = 10; for (int i = 0; i < REGULATE_COUNT; i++) { System.Threading.Thread.Sleep(PROBE_DELTA_MS); cpu_load.Add(pc.NextValue() / 100); if (src.IsCancellationRequested) { break; } } while (cpu_load.Count > PROBE_COUNT) { cpu_load.RemoveFirst(); } int old_transform_rounds = transform_rounds; float avg_cpu_load = cpu_load.Average(); if (avg_cpu_load >= TARGET_CPU_LOAD) { transform_rounds = (int)Math.Round(transform_rounds * 0.9); if (old_transform_rounds == transform_rounds) { transform_rounds--; } } else { transform_rounds = (int)Math.Round(transform_rounds * 1.1); if (old_transform_rounds == transform_rounds) { transform_rounds++; } } if (transform_rounds == 0) { transform_rounds = 1; } if (src.IsCancellationRequested) { break; } } }, src.Token); var partitioner = Partitioner.Create(Hashes.CryptoAll, EnumerablePartitionerOptions.None); Parallel.ForEach(partitioner, new ParallelOptions() { MaxDegreeOfParallelism = THREADS }, ht => { IHash hash = (IHash)Activator.CreateInstance(ht); pi.AddLine(String.Format("{0} / {1} - {2} - {3}%", Hashes.CryptoAll.IndexOf(ht) + 1, Hashes.CryptoAll.Count, hash.Name, 0)); TestData test_data = TestData.Load(hash); int test_data_index = 0; for (int i = 0; i < test_data.Count; i++) { if (test_data.GetRepeat(i) == 1) { continue; } test_data_index++; ulong repeats = (ulong)test_data.GetRepeat(i); byte[] data = test_data.GetData(i); string expected_result = Converters.ConvertBytesToHexString(test_data.GetHash(i)); hash.Initialize(); int transform_counter = transform_rounds; DateTime progress = DateTime.Now; for (ulong j = 0; j < repeats; j++) { hash.TransformBytes(data); transform_counter--; if (transform_counter == 0) { System.Threading.Thread.Sleep(SLEEP_TIME_MS); transform_counter = transform_rounds; } if (DateTime.Now - progress > TimeSpan.FromSeconds(5)) { pi.AddLine(String.Format("{0} / {1} / {2} - {3} - {4}%", Hashes.CryptoAll.IndexOf(ht) + 1, test_data_index, Hashes.CryptoAll.Count, hash.Name, j * 100 / repeats)); progress = DateTime.Now; } } HashResult result = hash.TransformFinal(); Assert.AreEqual(expected_result, Converters.ConvertBytesToHexString(result.GetBytes()), hash.ToString()); pi.AddLine(String.Format("{0} / {1} / {2} - {3} - {4}", Hashes.CryptoAll.IndexOf(ht) + 1, test_data_index, Hashes.CryptoAll.Count, hash.Name, "OK")); } }); src.Cancel(); regulator.Wait(); }
protected void TestAgainstTestFile(IHash a_hash, TestData a_testData) { a_testData.Load(); for(int i = 0; i < a_testData.Count; i++) { byte[] output_array = a_testData.GetHash(i); CollectionAssert.AreEqual(output_array, a_hash.ComputeBytes(a_testData.GetData(i)).GetBytes(), String.Format("{0}, {1}", a_hash.Name, i)); CollectionAssert.AreEqual(output_array, a_testData.GetHash(i), a_hash.Name); } }
protected void TestAgainstTestFile(IHash a_hash, TestData a_test_data = null) { if (a_test_data == null) a_test_data = TestData.Load(a_hash); for (int i = 0; i < a_test_data.Count; i++) { string output_array = Converters.ConvertBytesToHexString(a_test_data.GetHash(i)); if (a_test_data.GetRepeat(i) != 1) continue; if (a_hash is IWithKey) (a_hash as IWithKey).Key = a_test_data.GetKey(i); Assert.AreEqual(output_array, a_hash.ComputeBytes(a_test_data.GetData(i)).ToString(), String.Format("{0}, {1}", a_hash.Name, i)); } }