/* Copyright (c) Citrix Systems, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, * with or without modification, are permitted provided * that the following conditions are met: * * * Redistributions of source code must retain the above * copyright notice, this list of conditions and the * following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the * following disclaimer in the documentation and/or other * materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND * CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ using System; using System.Collections.Generic; using System.Reflection; using NUnit.Framework; using XenAdmin.Wlb; using XenAdminTests.UnitTests.UnitTestHelper; namespace XenAdminTests.UnitTests.WlbTests { [TestFixture, Category(TestCategories.Unit)] public class WlbPoolConfigurationTests { private IUnitTestVerifier validator; private WlbPoolConfiguration wlbPool; private const int NUMBER_OF_PROPERTIES = 36; [Test, ExpectedException(typeof(Exception))] public void NullCtorThrows() { wlbPool = new WlbPoolConfiguration(null); } [Test] public void ConstructedWithEmptyDictionaryVerifyGettersReturnValues() { wlbPool = new WlbPoolConfiguration(new Dictionary()); PropertyInfo[] pi = wlbPool.GetType().GetProperties(); Assert.AreEqual(NUMBER_OF_PROPERTIES, pi.Length, "Number of properties"); List fieldsToSkip = new List() { "AutoBalanceAggressiveness", //Enum "AutoBalanceSeverity", //Enum "ReportingSMTPServer", //Not set "PoolAuditGranularity" //Enum }; foreach (PropertyInfo propertyInfo in pi) { if( !fieldsToSkip.Contains( propertyInfo.Name )) { string extractedValue = propertyInfo.GetValue(wlbPool, null).ToString(); Assert.IsFalse(String.IsNullOrEmpty(extractedValue), "PB:" + propertyInfo.Name); } } Assert.IsNullOrEmpty(wlbPool.ReportingSMTPServer); } [Test] public void SettersThatSetOnlyForMROrLaterForVersionNewerThanMR() { Dictionary inputData = new Dictionary() { {"WlbVersion", "6.0"}, {"AutoBalanceEnabled", "false"}, {"AutoBalancePollIntervals", "0.333333"}, {"AutoBalanceSeverity", "High"}, {"AutoBalanceAggressiveness", "High"}, {"PowerManagementEnabled", "false"}, {"PowerManagementPollIntervals", "5.321264"}, {"EnableOptimizationModeSchedules", "false"} //Equal to AutomateOptimizationMode }; validator = new VerifyGettersAndSetters(new WlbPoolConfiguration(inputData)); MRSensitiveData expectedData = new MRSensitiveData() { AutoBalanceEnabled = true, AutoBalancePollIntervals = 2.0, AutoBalanceSeverity = WlbPoolAutoBalanceSeverity.Low, AutoBalanceAggressiveness = WlbPoolAutoBalanceAggressiveness.Medium, PowerManagementEnabled = true, PowerManagementPollIntervals = 7.0, AutomateOptimizationMode = true }; validator.Verify( expectedData); } [Test] public void SettersThatSetOnlyForMROrLaterForVersionOlderThanMR() { Dictionary inputData = new Dictionary() { {"WlbVersion", "1.0"}, {"AutoBalanceEnabled", "false"}, {"AutoBalancePollIntervals", "1.0"}, {"AutoBalanceSeverity", "High"}, {"AutoBalanceAggressiveness", "High"}, {"PowerManagementEnabled", "false"}, {"PowerManagementPollIntervals", "5.0"}, {"EnableOptimizationModeSchedules", "false"} //Equal to AutomateOptimizationMode }; VerifyGettersAndSetters validatorGetSet = new VerifyGettersAndSetters(new WlbPoolConfiguration(inputData)); MRSensitiveData expectedData = new MRSensitiveData() { AutoBalanceEnabled = false, AutoBalancePollIntervals = 1.0, AutoBalanceSeverity = WlbPoolAutoBalanceSeverity.High, AutoBalanceAggressiveness = WlbPoolAutoBalanceAggressiveness.High, PowerManagementEnabled = false, PowerManagementPollIntervals = 5.0, AutomateOptimizationMode = false }; MRSensitiveData dataToSet = new MRSensitiveData() { AutoBalanceEnabled = true, AutoBalancePollIntervals = 2.0, AutoBalanceSeverity = WlbPoolAutoBalanceSeverity.Low, AutoBalanceAggressiveness = WlbPoolAutoBalanceAggressiveness.Medium, PowerManagementEnabled = true, PowerManagementPollIntervals = 7.0, AutomateOptimizationMode = true }; validatorGetSet.VerifySettersAndGetters(expectedData, dataToSet); } [Test] public void SettersThatSetVerbatim() { Dictionary inputData = new Dictionary() { //Simple setters..... {"OptimizationMode", "MaximizeDensity"}, //PerformanceMode {"MetricGroomingPeriod", "2.0"}, {"RecentMoveMinutes", "2.0"}, //{"ReportingUseRSServer", "false"}, {"ReportingSMTPServer", "some string"}, //These set ranges of values..... {"HostCpuThresholdCritical", "3"}, {"HostMemoryThresholdCritical", "3.0"}, {"HostPifReadThresholdCritical", "4.0"}, //HostNetworkReadThresholdCritical {"HostPifWriteThresholdCritical", "5.0"}, //HostNetworkWriteThresholdCritical {"HostPbdReadThresholdCritical", "6.0"}, //HostDiskReadThresholdCritical {"HostPbdWriteThresholdCritical", "7.0"}, //HostDiskWriteThresholdCritical {"VmCpuUtilizationWeightHigh", "8"}, {"VmMemoryWeightHigh", "9"}, {"VmDiskReadWeightHigh", "10"}, {"VmDiskWriteWeightHigh", "11"}, {"VmNetworkReadWeightHigh", "12"}, {"VmNetworkWriteWeightHigh", "13"} }; validator = new VerifyGettersAndSetters(new WlbPoolConfiguration(inputData)); MRInSensitiveData data = new MRInSensitiveData() { PerformanceMode = WlbPoolPerformanceMode.MaximizePerformance, MetricGroomingPeriod = 5.0, RecentMoveMinutes = 6.0, //ReportingUseRSServer = true, ReportingSMTPServer = "who knows what?!", HostCpuThresholdCritical = 1, HostMemoryThresholdCritical = 2, HostNetworkReadThresholdCritical = 1.0, HostNetworkWriteThresholdCritical = 2.0, HostDiskReadThresholdCritical = 3.0, HostDiskWriteThresholdCritical = 4.0, VmCpuUtilizationWeightHigh = 5, VmMemoryWeightHigh = 6, VmDiskReadWeightHigh = 7, VmDiskWriteWeightHigh = 8, VmNetworkReadWeightHigh = 9, VmNetworkWriteWeightHigh = 10 }; validator.Verify(data); } [Test] public void OvercommitCPUsGetTheCorrectValueForDifferentModes() { Dictionary inputData = new Dictionary() { {"OverCommitCpuInDensityMode", "false"}, {"OverCommitCpuInPerfMode", "true"} }; wlbPool = new WlbPoolConfiguration(inputData); //Setter drops through if the key has not been added to the dictionary so won't set the values wlbPool.PerformanceMode = WlbPoolPerformanceMode.MaximizeDensity; //This should be false if the key were there Assert.IsTrue(wlbPool.OvercommitCPUs, "OvercommitCPUs in MaximizeDensity mode without key"); //Add the key and set the data - this is now the default behaviour wlbPool.AddParameter("OptimizationMode", "MaximizeDensity"); wlbPool.PerformanceMode = WlbPoolPerformanceMode.MaximizeDensity; Assert.IsFalse(wlbPool.OvercommitCPUs, "OvercommitCPUs in MaximizeDensity mode"); wlbPool.PerformanceMode = WlbPoolPerformanceMode.MaximizePerformance; Assert.IsTrue(wlbPool.OvercommitCPUs, "OvercommitCPUs in MaximizePerformance"); } #region Helper functions private struct MRSensitiveData { public bool AutoBalanceEnabled; public double AutoBalancePollIntervals; public WlbPoolAutoBalanceSeverity AutoBalanceSeverity; public WlbPoolAutoBalanceAggressiveness AutoBalanceAggressiveness; public bool PowerManagementEnabled; public double PowerManagementPollIntervals; public bool AutomateOptimizationMode; } private struct MRInSensitiveData { public WlbPoolPerformanceMode PerformanceMode; public double MetricGroomingPeriod; public double RecentMoveMinutes; //public bool ReportingUseRSServer; public string ReportingSMTPServer; public int HostCpuThresholdCritical; public double HostMemoryThresholdCritical; public double HostNetworkReadThresholdCritical; public double HostNetworkWriteThresholdCritical; public double HostDiskReadThresholdCritical; public double HostDiskWriteThresholdCritical; public int VmCpuUtilizationWeightHigh; public int VmMemoryWeightHigh; public int VmDiskReadWeightHigh; public int VmDiskWriteWeightHigh; public int VmNetworkReadWeightHigh; public int VmNetworkWriteWeightHigh; } #endregion } }