DSCResources/DSC_SqlSetup/DSC_SqlSetup.psm1
$script:sqlServerDscHelperModulePath = Join-Path -Path $PSScriptRoot -ChildPath '..\..\Modules\SqlServerDsc.Common' $script:resourceHelperModulePath = Join-Path -Path $PSScriptRoot -ChildPath '..\..\Modules\DscResource.Common' Import-Module -Name $script:sqlServerDscHelperModulePath Import-Module -Name $script:resourceHelperModulePath $script:localizedData = Get-LocalizedData -DefaultUICulture 'en-US' <# .SYNOPSIS Returns the current state of the SQL Server features. .PARAMETER Action The action to be performed. Default value is 'Install'. Possible values are 'Install', 'Upgrade', 'InstallFailoverCluster', 'AddNode', 'PrepareFailoverCluster', and 'CompleteFailoverCluster'. .PARAMETER SourcePath The path to the root of the source files for installation. I.e and UNC path to a shared resource. Environment variables can be used in the path. .PARAMETER SourceCredential Credentials used to access the path set in the parameter `SourcePath`. Using this parameter will trigger a copy of the installation media to a temp folder on the target node. Setup will then be started from the temp folder on the target node. For any subsequent calls to the resource, the parameter `SourceCredential` is used to evaluate what major version the file 'setup.exe' has in the path set, again, by the parameter `SourcePath`. If the path, that is assigned to parameter `SourcePath`, contains a leaf folder, for example '\\server\share\folder', then that leaf folder will be used as the name of the temporary folder. If the path, that is assigned to parameter `SourcePath`, does not have a leaf folder, for example '\\server\share', then a unique guid will be used as the name of the temporary folder. .PARAMETER InstanceName Name of the SQL instance to be installed. .PARAMETER RSInstallMode Install mode for Reporting Services. The value of this parameter cannot be determined post-install, so the function will simply return the value of this parameter. .PARAMETER FailoverClusterNetworkName Host name to be assigned to the clustered SQL Server instance. .PARAMETER FeatureFlag Feature flags are used to toggle functionality on or off. See the documentation for what additional functionality exist through a feature flag. .PARAMETER UseEnglish Specifies to install the English version of SQL Server on a localized operating system when the installation media includes language packs for both English and the language corresponding to the operating system. #> function Get-TargetResource { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter()] [ValidateSet('Install', 'Upgrade', 'InstallFailoverCluster', 'AddNode', 'PrepareFailoverCluster', 'CompleteFailoverCluster')] [System.String] $Action = 'Install', [Parameter()] [System.String] $SourcePath, [Parameter()] [System.Management.Automation.PSCredential] $SourceCredential, [Parameter(Mandatory = $true)] [System.String] $InstanceName, [Parameter()] [ValidateSet('SharePointFilesOnlyMode', 'DefaultNativeMode', 'FilesOnlyMode')] [System.String] $RSInstallMode, [Parameter()] [System.String] $FailoverClusterNetworkName, [Parameter()] [System.String[]] $FeatureFlag, [Parameter()] [System.Boolean] $UseEnglish ) if ($FeatureFlag) { Write-Verbose -Message ($script:localizedData.FeatureFlag -f ($FeatureFlag -join ''',''')) } $InstanceName = $InstanceName.ToUpper() $getTargetResourceReturnValue = @{ Action = $Action SourcePath = $SourcePath SourceCredential = $SourceCredential InstanceName = $InstanceName RSInstallMode = $RSInstallMode FeatureFlag = $FeatureFlag FailoverClusterNetworkName = $null Features = $null InstanceID = $null InstallSharedDir = $null InstallSharedWOWDir = $null InstanceDir = $null SQLSvcAccountUsername = $null SqlSvcStartupType = $null AgtSvcAccountUsername = $null AgtSvcStartupType = $null SQLCollation = $null SQLSysAdminAccounts = $null SecurityMode = $null InstallSQLDataDir = $null SQLUserDBDir = $null SQLUserDBLogDir = $null SQLTempDBDir = $null SQLTempDBLogDir = $null SqlTempdbFileCount = $null SqlTempdbFileSize = $null SqlTempdbFileGrowth = $null SqlTempdbLogFileSize = $null SqlTempdbLogFileGrowth = $null SQLBackupDir = $null FTSvcAccountUsername = $null RSSvcAccountUsername = $null RsSvcStartupType = $null ASSvcAccountUsername = $null AsSvcStartupType = $null ASCollation = $null ASSysAdminAccounts = $null ASDataDir = $null ASLogDir = $null ASBackupDir = $null ASTempDir = $null ASConfigDir = $null ASServerMode = $null ISSvcAccountUsername = $null IsSvcStartupType = $null FailoverClusterGroupName = $null FailoverClusterIPAddress = $null UseEnglish = $UseEnglish } <# $sqlHostName is later used by helper function to connect to the instance for the Database Engine or the Analysis Services. #> if ($Action -in @('CompleteFailoverCluster', 'InstallFailoverCluster', 'Addnode')) { $sqlHostName = $FailoverClusterNetworkName } else { $sqlHostName = $env:COMPUTERNAME } # Force drive list update, to pick up any newly mounted volumes $null = Get-PSDrive $SourcePath = [Environment]::ExpandEnvironmentVariables($SourcePath) if ($SourceCredential) { Connect-UncPath -RemotePath $SourcePath -SourceCredential $SourceCredential } $pathToSetupExecutable = Join-Path -Path $SourcePath -ChildPath 'setup.exe' Write-Verbose -Message ($script:localizedData.UsingPath -f $pathToSetupExecutable) $sqlVersion = Get-FilePathMajorVersion -Path $pathToSetupExecutable if ($SourceCredential) { Disconnect-UncPath -RemotePath $SourcePath } $serviceNames = Get-ServiceNamesForInstance -InstanceName $InstanceName -SqlServerMajorVersion $sqlVersion $features = '' # Get the name of the relevant services that are actually installed. $currentServiceNames = (Get-Service -Name @( $serviceNames.DatabaseService $serviceNames.AgentService $serviceNames.FullTextService $serviceNames.ReportService $serviceNames.AnalysisService $serviceNames.IntegrationService ) -ErrorAction 'SilentlyContinue').Name Write-Verbose -Message $script:localizedData.EvaluateDatabaseEngineFeature if ($serviceNames.DatabaseService -in $currentServiceNames) { Write-Verbose -Message $script:localizedData.DatabaseEngineFeatureFound $features += 'SQLENGINE,' # Get current properties for the feature SQLENGINE. $currentSqlEngineProperties = Get-SqlEngineProperties -ServerName $sqlHostName -InstanceName $InstanceName $getTargetResourceReturnValue.SQLSvcAccountUsername = $currentSqlEngineProperties.SQLSvcAccountUsername $getTargetResourceReturnValue.AgtSvcAccountUsername = $currentSqlEngineProperties.AgtSvcAccountUsername $getTargetResourceReturnValue.SqlSvcStartupType = $currentSqlEngineProperties.SqlSvcStartupType $getTargetResourceReturnValue.AgtSvcStartupType = $currentSqlEngineProperties.AgtSvcStartupType $getTargetResourceReturnValue.SQLCollation = $currentSqlEngineProperties.SQLCollation $getTargetResourceReturnValue.InstallSQLDataDir = $currentSqlEngineProperties.InstallSQLDataDir $getTargetResourceReturnValue.SQLUserDBDir = $currentSqlEngineProperties.SQLUserDBDir $getTargetResourceReturnValue.SQLUserDBLogDir = $currentSqlEngineProperties.SQLUserDBLogDir $getTargetResourceReturnValue.SQLBackupDir = $currentSqlEngineProperties.SQLBackupDir $getTargetResourceReturnValue.IsClustered = $currentSqlEngineProperties.IsClustered $getTargetResourceReturnValue.SecurityMode = $currentSqlEngineProperties.SecurityMode Write-Verbose -Message ($script:localizedData.EvaluateReplicationFeature -f $replicationRegistryPath) # Check if Replication sub component is configured for this instance $isReplicationInstalled = Test-IsReplicationFeatureInstalled -InstanceName $InstanceName if ($isReplicationInstalled) { Write-Verbose -Message $script:localizedData.ReplicationFeatureFound $features += 'REPLICATION,' } else { Write-Verbose -Message $script:localizedData.ReplicationFeatureNotFound } Write-Verbose -Message ($script:localizedData.EvaluateDataQualityServicesFeature -f $dataQualityServicesRegistryPath) # Check if the Data Quality Services sub component is configured. $isDQInstalled = Test-IsDQComponentInstalled -InstanceName $InstanceName -SqlServerMajorVersion $sqlVersion if ($isDQInstalled) { Write-Verbose -Message $script:localizedData.DataQualityServicesFeatureFound $features += 'DQ,' } else { Write-Verbose -Message $script:localizedData.DataQualityServicesFeatureNotFound } # Get the instance ID $fullInstanceId = Get-FullInstanceId -InstanceName $InstanceName $getTargetResourceReturnValue.InstanceID = $fullInstanceId.Split('.')[1] # Get the instance program path. $getTargetResourceReturnValue.InstanceDir = ` Get-InstanceProgramPath -InstanceName $InstanceName if ($sqlVersion -ge 13) { # Retrieve information about Tempdb database and its files. $currentTempDbProperties = Get-TempDbProperties -ServerName $sqlHostName -InstanceName $InstanceName $getTargetResourceReturnValue.SQLTempDBDir = $currentTempDbProperties.SQLTempDBDir $getTargetResourceReturnValue.SqlTempdbFileCount = $currentTempDbProperties.SqlTempdbFileCount $getTargetResourceReturnValue.SqlTempdbFileSize = $currentTempDbProperties.SqlTempdbFileSize $getTargetResourceReturnValue.SqlTempdbFileGrowth = $currentTempDbProperties.SqlTempdbFileGrowth $getTargetResourceReturnValue.SqlTempdbLogFileSize = $currentTempDbProperties.SqlTempdbLogFileSize $getTargetResourceReturnValue.SqlTempdbLogFileGrowth = $currentTempDbProperties.SqlTempdbLogFileGrowth } # Get all members of the sysadmin role. $sqlSystemAdminAccounts = Get-SqlRoleMembers -RoleName 'sysadmin' -ServerName $sqlHostName -InstanceName $InstanceName $getTargetResourceReturnValue.SQLSysAdminAccounts = $sqlSystemAdminAccounts if ($getTargetResourceReturnValue.IsClustered) { Write-Verbose -Message $script:localizedData.ClusterInstanceFound $currentClusterProperties = Get-SqlClusterProperties -InstanceName $InstanceName $getTargetResourceReturnValue.FailoverClusterNetworkName = $currentClusterProperties.FailoverClusterNetworkName $getTargetResourceReturnValue.FailoverClusterGroupName = $currentClusterProperties.FailoverClusterGroupName $getTargetResourceReturnValue.FailoverClusterIPAddress = $currentClusterProperties.FailoverClusterIPAddress } else { Write-Verbose -Message $script:localizedData.ClusterInstanceNotFound } } else { Write-Verbose -Message $script:localizedData.DatabaseEngineFeatureNotFound } Write-Verbose -Message $script:localizedData.EvaluateFullTextFeature if ($serviceNames.FullTextService -in $currentServiceNames) { Write-Verbose -Message $script:localizedData.FullTextFeatureFound $features += 'FULLTEXT,' $getTargetResourceReturnValue.FTSvcAccountUsername = ( Get-ServiceProperties -ServiceName $serviceNames.FullTextService ).UserName } else { Write-Verbose -Message $script:localizedData.FullTextFeatureNotFound } Write-Verbose -Message $script:localizedData.EvaluateReportingServicesFeature if ($serviceNames.ReportService -in $currentServiceNames) { Write-Verbose -Message $script:localizedData.ReportingServicesFeatureFound $features += 'RS,' $serviceReportingService = Get-ServiceProperties -ServiceName $serviceNames.ReportService $getTargetResourceReturnValue.RSSvcAccountUsername = $serviceReportingService.UserName $getTargetResourceReturnValue.RsSvcStartupType = $serviceReportingService.StartupType } else { Write-Verbose -Message $script:localizedData.ReportingServicesFeatureNotFound } Write-Verbose -Message $script:localizedData.EvaluateAnalysisServicesFeature if ($serviceNames.AnalysisService -in $currentServiceNames) { Write-Verbose -Message $script:localizedData.AnalysisServicesFeatureFound $features += 'AS,' $serviceAnalysisService = Get-ServiceProperties -ServiceName $serviceNames.AnalysisService $getTargetResourceReturnValue.ASSvcAccountUsername = $serviceAnalysisService.UserName $getTargetResourceReturnValue.AsSvcStartupType = $serviceAnalysisService.StartupType $analysisServer = Connect-SQLAnalysis -ServerName $sqlHostName -InstanceName $InstanceName $getTargetResourceReturnValue.ASCollation = $analysisServer.ServerProperties['CollationName'].Value $getTargetResourceReturnValue.ASDataDir = $analysisServer.ServerProperties['DataDir'].Value $getTargetResourceReturnValue.ASTempDir = $analysisServer.ServerProperties['TempDir'].Value $getTargetResourceReturnValue.ASLogDir = $analysisServer.ServerProperties['LogDir'].Value $getTargetResourceReturnValue.ASBackupDir = $analysisServer.ServerProperties['BackupDir'].Value <# The property $analysisServer.ServerMode.value__ contains the server mode (aka deployment mode) value 0, 1 or 2. See DeploymentMode here https://docs.microsoft.com/en-us/sql/analysis-services/server-properties/general-properties. The property $analysisServer.ServerMode contains the display name of the property value__. See more information here https://msdn.microsoft.com/en-us/library/microsoft.analysisservices.core.server.servermode.aspx. #> $getTargetResourceReturnValue.ASServerMode = $analysisServer.ServerMode.ToString().ToUpper() $getTargetResourceReturnValue.ASSysAdminAccounts = [System.String[]] $analysisServer.Roles['Administrators'].Members.Name $serviceAnalysisServiceImagePath = Get-RegistryPropertyValue -Path "HKLM:\SYSTEM\CurrentControlSet\Services\$($serviceNames.AnalysisService)" -Name 'ImagePath' $foundAnalysisServiceConfigPath = $serviceAnalysisServiceImagePath -match '-s\s*"(.*)"' if ($foundAnalysisServiceConfigPath) { $getTargetResourceReturnValue.ASConfigDir = $matches[1] } } else { Write-Verbose -Message $script:localizedData.AnalysisServicesFeatureNotFound } Write-Verbose -Message $script:localizedData.EvaluateIntegrationServicesFeature if ($serviceNames.IntegrationService -in $currentServiceNames) { Write-Verbose -Message $script:localizedData.IntegrationServicesFeatureFound $features += 'IS,' $serviceIntegrationService = Get-ServiceProperties -ServiceName $serviceNames.IntegrationService $getTargetResourceReturnValue.ISSvcAccountUsername = $serviceIntegrationService.UserName $getTargetResourceReturnValue.IsSvcStartupType = $serviceIntegrationService.StartupType } else { Write-Verbose -Message $script:localizedData.IntegrationServicesFeatureNotFound } $installedSharedFeatures = Get-InstalledSharedFeatures -SqlServerMajorVersion $sqlVersion $features += '{0},' -f ($installedSharedFeatures -join ',') if ((Test-IsSsmsInstalled -SqlServerMajorVersion $sqlVersion)) { $features += 'SSMS,' } if ((Test-IsSsmsAdvancedInstalled -SqlServerMajorVersion $sqlVersion)) { $features += 'ADV_SSMS,' } $features = $features.Trim(',') if ($features) { $currentSqlSharedPaths = Get-SqlSharedPaths -SqlServerMajorVersion $sqlVersion $getTargetResourceReturnValue.InstallSharedDir = $currentSqlSharedPaths.InstallSharedDir $getTargetResourceReturnValue.InstallSharedWOWDir = $currentSqlSharedPaths.InstallSharedWOWDir } <# If no features was found, this will be set to en empty string. The variable $features is initially set to an empty string. #> $getTargetResourceReturnValue.Features = $features return $getTargetResourceReturnValue } <# .SYNOPSIS Installs the SQL Server features to the node. .PARAMETER Action The action to be performed. Default value is 'Install'. Possible values are 'Install', 'Upgrade', 'InstallFailoverCluster', 'AddNode', 'PrepareFailoverCluster', and 'CompleteFailoverCluster'. .PARAMETER SourcePath The path to the root of the source files for installation. I.e and UNC path to a shared resource. Environment variables can be used in the path. .PARAMETER SourceCredential Credentials used to access the path set in the parameter `SourcePath`. Using this parameter will trigger a copy of the installation media to a temp folder on the target node. Setup will then be started from the temp folder on the target node. For any subsequent calls to the resource, the parameter `SourceCredential` is used to evaluate what major version the file 'setup.exe' has in the path set, again, by the parameter `SourcePath`. If the path, that is assigned to parameter `SourcePath`, contains a leaf folder, for example '\\server\share\folder', then that leaf folder will be used as the name of the temporary folder. If the path, that is assigned to parameter `SourcePath`, does not have a leaf folder, for example '\\server\share', then a unique guid will be used as the name of the temporary folder. .PARAMETER SuppressReboot Suppressed reboot. .PARAMETER ForceReboot Forces reboot. .PARAMETER Features SQL features to be installed. .PARAMETER InstanceName Name of the SQL instance to be installed. .PARAMETER InstanceID SQL instance ID, if different from InstanceName. .PARAMETER ProductKey Product key for licensed installations. .PARAMETER UpdateEnabled Enabled updates during installation. .PARAMETER UpdateSource Path to the source of updates to be applied during installation. .PARAMETER SQMReporting Enable customer experience reporting. .PARAMETER ErrorReporting Enable error reporting. .PARAMETER InstallSharedDir Installation path for shared SQL files. .PARAMETER InstallSharedWOWDir Installation path for x86 shared SQL files. .PARAMETER InstanceDir Installation path for SQL instance files. .PARAMETER SQLSvcAccount Service account for the SQL service. .PARAMETER AgtSvcAccount Service account for the SQL Agent service. .PARAMETER SQLCollation Collation for SQL. .PARAMETER SQLSysAdminAccounts Array of accounts to be made SQL administrators. .PARAMETER SecurityMode Security mode to apply to the SQL Server instance. 'SQL' indicates mixed-mode authentication while 'Windows' indicates Windows authentication. Default is Windows. { *Windows* | SQL } .PARAMETER SAPwd SA password, if SecurityMode is set to 'SQL'. .PARAMETER InstallSQLDataDir Root path for SQL database files. .PARAMETER SQLUserDBDir Path for SQL database files. .PARAMETER SQLUserDBLogDir Path for SQL log files. .PARAMETER SQLTempDBDir Path for SQL TempDB files. .PARAMETER SQLTempDBLogDir Path for SQL TempDB log files. .PARAMETER SQLBackupDir Path for SQL backup files. .PARAMETER FTSvcAccount Service account for the Full Text service. .PARAMETER RSSvcAccount Service account for Reporting Services service. .PARAMETER RSInstallMode Install mode for Reporting Services. .PARAMETER ASSvcAccount Service account for Analysis Services service. .PARAMETER ASCollation Collation for Analysis Services. .PARAMETER ASSysAdminAccounts Array of accounts to be made Analysis Services admins. .PARAMETER ASDataDir Path for Analysis Services data files. .PARAMETER ASLogDir Path for Analysis Services log files. .PARAMETER ASBackupDir Path for Analysis Services backup files. .PARAMETER ASTempDir Path for Analysis Services temp files. .PARAMETER ASConfigDir Path for Analysis Services config. .PARAMETER ASServerMode The server mode for SQL Server Analysis Services instance. The default is to install in Multidimensional mode. Valid values in a cluster scenario are MULTIDIMENSIONAL or TABULAR. Parameter ASServerMode is case-sensitive. All values must be expressed in upper case. { MULTIDIMENSIONAL | TABULAR | POWERPIVOT }. .PARAMETER ISSvcAccount Service account for Integration Services service. .PARAMETER SqlSvcStartupType Specifies the startup mode for SQL Server Engine service. .PARAMETER AgtSvcStartupType Specifies the startup mode for SQL Server Agent service. .PARAMETER AsSvcStartupType Specifies the startup mode for SQL Server Analysis service. .PARAMETER IsSvcStartupType Specifies the startup mode for SQL Server Integration service. .PARAMETER RsSvcStartupType Specifies the startup mode for SQL Server Report service. .PARAMETER BrowserSvcStartupType Specifies the startup mode for SQL Server Browser service. .PARAMETER FailoverClusterGroupName The name of the resource group to create for the clustered SQL Server instance. Default is 'SQL Server (InstanceName)'. .PARAMETER FailoverClusterIPAddress Array of IP Addresses to be assigned to the clustered SQL Server instance. .PARAMETER FailoverClusterNetworkName Host name to be assigned to the clustered SQL Server instance. .PARAMETER SqlTempdbFileCount Specifies the number of tempdb data files to be added by setup. .PARAMETER SqlTempdbFileSize Specifies the initial size of each tempdb data file in MB. .PARAMETER SqlTempdbFileGrowth Specifies the file growth increment of each tempdb data file in MB. .PARAMETER SqlTempdbLogFileSize Specifies the initial size of each tempdb log file in MB. .PARAMETER SqlTempdbLogFileGrowth Specifies the file growth increment of each tempdb data file in MB. .PARAMETER NpEnabled Specifies the state of the Named Pipes protocol for the SQL Server service. The value $true will enable the Named Pipes protocol and $false will disabled it. .PARAMETER TcpEnabled Specifies the state of the TCP protocol for the SQL Server service. The value $true will enable the TCP protocol and $false will disabled it. .PARAMETER SetupProcessTimeout The timeout, in seconds, to wait for the setup process to finish. Default value is 7200 seconds (2 hours). If the setup process does not finish before this time, and error will be thrown. .PARAMETER FeatureFlag Feature flags are used to toggle functionality on or off. See the documentation for what additional functionality exist through a feature flag. .PARAMETER UseEnglish Specifies to install the English version of SQL Server on a localized operating system when the installation media includes language packs for both English and the language corresponding to the operating system. .PARAMETER SkipRule Specifies optional skip rules during setup. #> function Set-TargetResource { <# Suppressing this rule because $global:DSCMachineStatus is used to trigger a reboot, either by force or when there are pending changes. #> [System.Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSAvoidGlobalVars', '')] <# Suppressing this rule because $global:DSCMachineStatus is only set, never used (by design of Desired State Configuration). #> [System.Diagnostics.CodeAnalysis.SuppressMessageAttribute('PSUseDeclaredVarsMoreThanAssignments', '')] [CmdletBinding()] param ( [Parameter()] [ValidateSet('Install', 'Upgrade', 'InstallFailoverCluster', 'AddNode', 'PrepareFailoverCluster', 'CompleteFailoverCluster')] [System.String] $Action = 'Install', [Parameter()] [System.String] $SourcePath, [Parameter()] [System.Management.Automation.PSCredential] $SourceCredential, [Parameter()] [System.Boolean] $SuppressReboot, [Parameter()] [System.Boolean] $ForceReboot, [Parameter()] [System.String] $Features, [Parameter(Mandatory = $true)] [System.String] $InstanceName, [Parameter()] [System.String] $InstanceID, [Parameter()] [System.String] $ProductKey, [Parameter()] [System.String] $UpdateEnabled, [Parameter()] [System.String] $UpdateSource, [Parameter()] [System.String] $SQMReporting, [Parameter()] [System.String] $ErrorReporting, [Parameter()] [System.String] $InstallSharedDir, [Parameter()] [System.String] $InstallSharedWOWDir, [Parameter()] [System.String] $InstanceDir, [Parameter()] [System.Management.Automation.PSCredential] $SQLSvcAccount, [Parameter()] [System.Management.Automation.PSCredential] $AgtSvcAccount, [Parameter()] [System.String] $SQLCollation, [Parameter()] [System.String[]] $SQLSysAdminAccounts, [Parameter()] [ValidateSet('SQL', 'Windows')] [System.String] $SecurityMode, [Parameter()] [System.Management.Automation.PSCredential] $SAPwd, [Parameter()] [System.String] $InstallSQLDataDir, [Parameter()] [System.String] $SQLUserDBDir, [Parameter()] [System.String] $SQLUserDBLogDir, [Parameter()] [System.String] $SQLTempDBDir, [Parameter()] [System.String] $SQLTempDBLogDir, [Parameter()] [System.String] $SQLBackupDir, [Parameter()] [System.Management.Automation.PSCredential] $FTSvcAccount, [Parameter()] [System.Management.Automation.PSCredential] $RSSvcAccount, [Parameter()] [ValidateSet('SharePointFilesOnlyMode', 'DefaultNativeMode', 'FilesOnlyMode')] [System.String] $RSInstallMode, [Parameter()] [System.Management.Automation.PSCredential] $ASSvcAccount, [Parameter()] [System.String] $ASCollation, [Parameter()] [System.String[]] $ASSysAdminAccounts, [Parameter()] [System.String] $ASDataDir, [Parameter()] [System.String] $ASLogDir, [Parameter()] [System.String] $ASBackupDir, [Parameter()] [System.String] $ASTempDir, [Parameter()] [System.String] $ASConfigDir, [Parameter()] [ValidateSet('MULTIDIMENSIONAL', 'TABULAR', 'POWERPIVOT', IgnoreCase = $false)] [System.String] $ASServerMode, [Parameter()] [System.Management.Automation.PSCredential] $ISSvcAccount, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $SqlSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $AgtSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $IsSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $AsSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $RsSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $BrowserSvcStartupType, [Parameter()] [System.String] $FailoverClusterGroupName, [Parameter()] [System.String[]] $FailoverClusterIPAddress, [Parameter()] [System.String] $FailoverClusterNetworkName, [Parameter()] [System.UInt32] $SqlTempdbFileCount, [Parameter()] [System.UInt32] $SqlTempdbFileSize, [Parameter()] [System.UInt32] $SqlTempdbFileGrowth, [Parameter()] [System.UInt32] $SqlTempdbLogFileSize, [Parameter()] [System.UInt32] $SqlTempdbLogFileGrowth, [Parameter()] [System.Boolean] $NpEnabled, [Parameter()] [System.Boolean] $TcpEnabled, [Parameter()] [System.UInt32] $SetupProcessTimeout = 7200, [Parameter()] [System.String[]] $FeatureFlag, [Parameter()] [System.Boolean] $UseEnglish, [Parameter()] [ValidateNotNullOrEmpty()] [System.String[]] $SkipRule ) <# Fixing issue 448, setting FailoverClusterGroupName to default value if not specified in configuration. #> if (-not $PSBoundParameters.ContainsKey('FailoverClusterGroupName')) { $FailoverClusterGroupName = 'SQL Server ({0})' -f $InstanceName } # Force drive list update, to pick up any newly mounted volumes $null = Get-PSDrive $getTargetResourceParameters = @{ Action = $Action SourcePath = $SourcePath SourceCredential = $SourceCredential InstanceName = $InstanceName FailoverClusterNetworkName = $FailoverClusterNetworkName FeatureFlag = $FeatureFlag } $getTargetResourceResult = Get-TargetResource @getTargetResourceParameters $InstanceName = $InstanceName.ToUpper() $parametersToEvaluateTrailingSlash = @( 'InstanceDir', 'InstallSharedDir', 'InstallSharedWOWDir', 'InstallSQLDataDir', 'SQLUserDBDir', 'SQLUserDBLogDir', 'SQLTempDBDir', 'SQLTempDBLogDir', 'SQLBackupDir', 'ASDataDir', 'ASLogDir', 'ASBackupDir', 'ASTempDir', 'ASConfigDir', 'UpdateSource' ) # Making sure paths are correct. foreach ($parameterName in $parametersToEvaluateTrailingSlash) { if ($PSBoundParameters.ContainsKey($parameterName)) { $parameterValue = Get-Variable -Name $parameterName -ValueOnly $formattedPath = Format-Path -Path $parameterValue -TrailingSlash Set-Variable -Name $parameterName -Value $formattedPath } } $SourcePath = [Environment]::ExpandEnvironmentVariables($SourcePath) if ($SourceCredential) { $invokeInstallationMediaCopyParameters = @{ SourcePath = $SourcePath SourceCredential = $SourceCredential PassThru = $true } $SourcePath = Invoke-InstallationMediaCopy @invokeInstallationMediaCopyParameters } $pathToSetupExecutable = Join-Path -Path $SourcePath -ChildPath 'setup.exe' Write-Verbose -Message ($script:localizedData.UsingPath -f $pathToSetupExecutable) $sqlVersion = Get-FilePathMajorVersion -Path $pathToSetupExecutable # Determine features to install $featuresToInstall = '' $featuresArray = $Features -split ',' foreach ($feature in $featuresArray) { if (($sqlVersion -in ('13', '14')) -and ($feature -in ('ADV_SSMS', 'SSMS'))) { $errorMessage = $script:localizedData.FeatureNotSupported -f $feature New-InvalidOperationException -Message $errorMessage } $foundFeaturesArray = $getTargetResourceResult.Features -split ',' if ($feature -notin $foundFeaturesArray) { # Must make sure the feature names are provided in upper-case. $featuresToInstall += '{0},' -f $feature.ToUpper() } else { Write-Verbose -Message ($script:localizedData.FeatureAlreadyInstalled -f $feature) } } $Features = $featuresToInstall.Trim(',') # If SQL shared components already installed, clear InstallShared*Dir variables switch ($sqlVersion) { { $_ -in ('10', '11', '12', '13', '14') } { if ((Get-Variable -Name 'InstallSharedDir' -ErrorAction SilentlyContinue) -and (Get-ItemProperty 'HKLM:\SOFTWARE\Microsoft\Windows\CurrentVersion\Installer\UserData\S-1-5-18\Components\FEE2E540D20152D4597229B6CFBC0A69' -ErrorAction SilentlyContinue)) { Set-Variable -Name 'InstallSharedDir' -Value '' } if ((Get-Variable -Name 'InstallSharedWOWDir' -ErrorAction SilentlyContinue) -and (Get-ItemProperty 'HKLM:\SOFTWARE\Microsoft\Windows\CurrentVersion\Installer\UserData\S-1-5-18\Components\A79497A344129F64CA7D69C56F5DD8B4' -ErrorAction SilentlyContinue)) { Set-Variable -Name 'InstallSharedWOWDir' -Value '' } } } $setupArguments = @{} if ($PSBoundParameters.ContainsKey('SkipRule') ) { $setupArguments['SkipRules'] = @($SkipRule) } <# Set the failover cluster group name and failover cluster network name for this clustered instance if the action is either installing (InstallFailoverCluster) or completing (CompleteFailoverCluster) a cluster. #> if ($Action -in @('CompleteFailoverCluster', 'InstallFailoverCluster')) { $setupArguments['FailoverClusterNetworkName'] = $FailoverClusterNetworkName $setupArguments['FailoverClusterGroup'] = $FailoverClusterGroupName } # Perform disk mapping for specific cluster installation types if ($Action -in @('CompleteFailoverCluster', 'InstallFailoverCluster')) { $requiredDrive = @() # This is also used to evaluate which cluster shard disks should be used. $parametersToEvaluateShareDisk = @( 'InstallSQLDataDir', 'SQLUserDBDir', 'SQLUserDBLogDir', 'SQLTempDBDir', 'SQLTempDBLogDir', 'SQLBackupDir', 'ASDataDir', 'ASLogDir', 'ASBackupDir', 'ASTempDir', 'ASConfigDir' ) # Get a required listing of drives based on parameters assigned by user. foreach ($parameterName in $parametersToEvaluateShareDisk) { if ($PSBoundParameters.ContainsKey($parameterName)) { $parameterValue = Get-Variable -Name $parameterName -ValueOnly if ($parameterValue) { Write-Verbose -Message ($script:localizedData.PathRequireClusterDriveFound -f $parameterName, $parameterValue) $requiredDrive += $parameterValue } } } # Only keep unique paths and add a member to keep track if the path is mapped to a disk. $requiredDrive = $requiredDrive | Sort-Object -Unique | Add-Member -MemberType NoteProperty -Name IsMapped -Value $false -PassThru # Get the disk resources that are available (not assigned to a cluster role) $availableStorage = Get-CimInstance -Namespace 'root/MSCluster' -ClassName 'MSCluster_ResourceGroup' -Filter "Name = 'Available Storage'" | Get-CimAssociatedInstance -Association MSCluster_ResourceGroupToResource -ResultClassName MSCluster_Resource | ` Add-Member -MemberType NoteProperty -Name 'IsPossibleOwner' -Value $false -PassThru # First map regular cluster volumes foreach ($diskResource in $availableStorage) { # Determine whether the current node is a possible owner of the disk resource $possibleOwners = $diskResource | Get-CimAssociatedInstance -Association 'MSCluster_ResourceToPossibleOwner' -KeyOnly | Select-Object -ExpandProperty Name if ($possibleOwners -icontains $env:COMPUTERNAME) { $diskResource.IsPossibleOwner = $true } } $failoverClusterDisks = @() foreach ($currentRequiredDrive in $requiredDrive) { foreach ($diskResource in ($availableStorage | Where-Object -FilterScript { $_.IsPossibleOwner -eq $true })) { $partitions = $diskResource | Get-CimAssociatedInstance -ResultClassName 'MSCluster_DiskPartition' | Select-Object -ExpandProperty Path foreach ($partition in $partitions) { if ($currentRequiredDrive -imatch $partition.Replace('\', '\\')) { $currentRequiredDrive.IsMapped = $true $failoverClusterDisks += $diskResource.Name break } if ($currentRequiredDrive.IsMapped) { break } } if ($currentRequiredDrive.IsMapped) { break } } } # Now we handle cluster shared volumes $clusterSharedVolumes = Get-CimInstance -ClassName 'MSCluster_ClusterSharedVolume' -Namespace 'root/MSCluster' foreach ($clusterSharedVolume in $clusterSharedVolumes) { foreach ($currentRequiredDrive in ($requiredDrive | Where-Object -FilterScript { $_.IsMapped -eq $false })) { if ($currentRequiredDrive -imatch $clusterSharedVolume.Name.Replace('\', '\\')) { $diskName = Get-CimInstance -ClassName 'MSCluster_ClusterSharedVolumeToResource' -Namespace 'root/MSCluster' | ` Where-Object -FilterScript { $_.GroupComponent.Name -eq $clusterSharedVolume.Name } | ` Select-Object -ExpandProperty PartComponent | ` Select-Object -ExpandProperty Name $failoverClusterDisks += $diskName $currentRequiredDrive.IsMapped = $true } } } # Ensure we have a unique listing of disks $failoverClusterDisks = $failoverClusterDisks | Sort-Object -Unique # Ensure we mapped all required drives $unMappedRequiredDrives = $requiredDrive | Where-Object -FilterScript { $_.IsMapped -eq $false } | Measure-Object if ($unMappedRequiredDrives.Count -gt 0) { $errorMessage = $script:localizedData.FailoverClusterDiskMappingError -f ($failoverClusterDisks -join '; ') New-InvalidResultException -Message $errorMessage } # Add the cluster disks as a setup argument $setupArguments['FailoverClusterDisks'] = ($failoverClusterDisks | Sort-Object) } # Determine network mapping for specific cluster installation types if ($Action -in @('CompleteFailoverCluster', 'InstallFailoverCluster')) { $clusterIPAddresses = @() # If no IP Address has been specified, use "DEFAULT" if ($FailoverClusterIPAddress.Count -eq 0) { $clusterIPAddresses += "DEFAULT" } else { # Get the available client networks $availableNetworks = @(Get-CimInstance -Namespace root/MSCluster -ClassName MSCluster_Network -Filter 'Role >= 2') # Add supplied IP Addresses that are valid for available cluster networks foreach ($address in $FailoverClusterIPAddress) { foreach ($network in $availableNetworks) { # Determine whether the IP address is valid for this network if (Test-IPAddress -IPAddress $address -NetworkID $network.Address -SubnetMask $network.AddressMask) { # Add the formatted string to our array $clusterIPAddresses += "IPv4;$address;$($network.Name);$($network.AddressMask)" } } } } # Ensure we mapped all required networks $suppliedNetworkCount = $FailoverClusterIPAddress.Count $mappedNetworkCount = $clusterIPAddresses.Count # Determine whether we have mapping issues for the IP Address(es) if ($mappedNetworkCount -lt $suppliedNetworkCount) { $errorMessage = $script:localizedData.FailoverClusterIPAddressNotValid New-InvalidResultException -Message $errorMessage } # Add the networks to the installation arguments $setupArguments['FailoverClusterIPAddresses'] = $clusterIPAddresses } # Add standard install arguments $setupArguments += @{ Quiet = $true IAcceptSQLServerLicenseTerms = $true Action = $Action } $argumentVars = @( 'InstanceName', 'InstanceID', 'UpdateEnabled', 'UpdateSource', 'ProductKey', 'SQMReporting', 'ErrorReporting' ) if ($Action -in @('Install', 'Upgrade', 'InstallFailoverCluster', 'PrepareFailoverCluster', 'CompleteFailoverCluster')) { $argumentVars += @( 'Features', 'InstallSharedDir', 'InstallSharedWOWDir', 'InstanceDir' ) } if ($null -ne $BrowserSvcStartupType) { $argumentVars += 'BrowserSvcStartupType' } if ($Features.Contains('SQLENGINE')) { if ($PSBoundParameters.ContainsKey('SQLSvcAccount')) { $setupArguments += (Get-ServiceAccountParameters -ServiceAccount $SQLSvcAccount -ServiceType 'SQL') } if ($PSBoundParameters.ContainsKey('AgtSvcAccount')) { $setupArguments += (Get-ServiceAccountParameters -ServiceAccount $AgtSvcAccount -ServiceType 'AGT') } if ($SecurityMode -eq 'SQL') { $setupArguments['SAPwd'] = $SAPwd.GetNetworkCredential().Password } # Should not be passed when PrepareFailoverCluster is specified if ($Action -in @('Install', 'Upgrade', 'InstallFailoverCluster', 'CompleteFailoverCluster')) { if ($null -ne $PsDscContext.RunAsUser) { <# Add the credentials from the parameter PsDscRunAsCredential, as the first system administrator. The username is stored in $PsDscContext.RunAsUser. #> Write-Verbose -Message ($script:localizedData.AddingFirstSystemAdministratorSqlServer -f $($PsDscContext.RunAsUser)) $setupArguments['SQLSysAdminAccounts'] = @($PsDscContext.RunAsUser) } if ($PSBoundParameters.ContainsKey('SQLSysAdminAccounts')) { $setupArguments['SQLSysAdminAccounts'] += $SQLSysAdminAccounts } if ($PSBoundParameters.ContainsKey('NpEnabled')) { if ($NpEnabled) { $setupArguments['NPENABLED'] = 1 } else { $setupArguments['NPENABLED'] = 0 } } if ($PSBoundParameters.ContainsKey('TcpEnabled')) { if ($TcpEnabled) { $setupArguments['TCPENABLED'] = 1 } else { $setupArguments['TCPENABLED'] = 0 } } $argumentVars += @( 'SecurityMode', 'SQLCollation', 'InstallSQLDataDir', 'SQLUserDBDir', 'SQLUserDBLogDir', 'SQLTempDBDir', 'SQLTempDBLogDir', 'SQLBackupDir' ) } # tempdb : define SqlTempdbFileCount if ($PSBoundParameters.ContainsKey('SqlTempdbFileCount')) { $setupArguments['SqlTempdbFileCount'] = $SqlTempdbFileCount } # tempdb : define SqlTempdbFileSize if ($PSBoundParameters.ContainsKey('SqlTempdbFileSize')) { $setupArguments['SqlTempdbFileSize'] = $SqlTempdbFileSize } # tempdb : define SqlTempdbFileGrowth if ($PSBoundParameters.ContainsKey('SqlTempdbFileGrowth')) { $setupArguments['SqlTempdbFileGrowth'] = $SqlTempdbFileGrowth } # tempdb : define SqlTempdbLogFileSize if ($PSBoundParameters.ContainsKey('SqlTempdbLogFileSize')) { $setupArguments['SqlTempdbLogFileSize'] = $SqlTempdbLogFileSize } # tempdb : define SqlTempdbLogFileGrowth if ($PSBoundParameters.ContainsKey('SqlTempdbLogFileGrowth')) { $setupArguments['SqlTempdbLogFileGrowth'] = $SqlTempdbLogFileGrowth } if ($Action -in @('Install', 'Upgrade')) { if ($PSBoundParameters.ContainsKey('AgtSvcStartupType')) { $setupArguments['AgtSvcStartupType'] = $AgtSvcStartupType } if ($PSBoundParameters.ContainsKey('SqlSvcStartupType')) { $setupArguments['SqlSvcStartupType'] = $SqlSvcStartupType } } } if ($Features.Contains('FULLTEXT')) { if ($PSBoundParameters.ContainsKey('FTSvcAccount')) { $setupArguments += (Get-ServiceAccountParameters -ServiceAccount $FTSvcAccount -ServiceType 'FT') } } if ($Features.Contains('RS')) { if ($PSBoundParameters.ContainsKey('RSSvcAccount')) { $setupArguments += (Get-ServiceAccountParameters -ServiceAccount $RSSvcAccount -ServiceType 'RS') } if ($PSBoundParameters.ContainsKey('RsSvcStartupType')) { $setupArguments['RsSvcStartupType'] = $RsSvcStartupType } if ($PSBoundParameters.ContainsKey('RSInstallMode')) { $setupArguments['RSINSTALLMODE'] = $RSInstallMode } } if ($Features.Contains('AS')) { $argumentVars += @( 'ASCollation', 'ASDataDir', 'ASLogDir', 'ASBackupDir', 'ASTempDir', 'ASConfigDir' ) if ($PSBoundParameters.ContainsKey('ASServerMode')) { $setupArguments['ASServerMode'] = $ASServerMode } if ($PSBoundParameters.ContainsKey('ASSvcAccount')) { $setupArguments += (Get-ServiceAccountParameters -ServiceAccount $ASSvcAccount -ServiceType 'AS') } if ($Action -in ('Install', 'Upgrade', 'InstallFailoverCluster', 'CompleteFailoverCluster')) { if ($null -ne $PsDscContext.RunAsUser) { <# Add the credentials from the parameter PsDscRunAsCredential, as the first system administrator. The username is stored in $PsDscContext.RunAsUser. #> Write-Verbose -Message ($script:localizedData.AddingFirstSystemAdministratorAnalysisServices -f $($PsDscContext.RunAsUser)) $setupArguments['ASSysAdminAccounts'] = @($PsDscContext.RunAsUser) } if ($PSBoundParameters.ContainsKey("ASSysAdminAccounts")) { $setupArguments['ASSysAdminAccounts'] += $ASSysAdminAccounts } } if ($PSBoundParameters.ContainsKey('AsSvcStartupType')) { $setupArguments['AsSvcStartupType'] = $AsSvcStartupType } } if ($Features.Contains('IS')) { if ($PSBoundParameters.ContainsKey('ISSvcAccount')) { $setupArguments += (Get-ServiceAccountParameters -ServiceAccount $ISSvcAccount -ServiceType 'IS') } if ($PSBoundParameters.ContainsKey('IsSvcStartupType')) { $setupArguments['IsSvcStartupType'] = $IsSvcStartupType } } # Automatically include any additional arguments foreach ($argument in $argumentVars) { if ($argument -eq 'ProductKey') { $setupArguments['PID'] = Get-Variable -Name $argument -ValueOnly } else { # If the argument contains a value, then add the argument to the setup argument list if (Get-Variable -Name $argument -ValueOnly) { $setupArguments[$argument] = Get-Variable -Name $argument -ValueOnly } } } # Build the argument string to be passed to setup $arguments = '' foreach ($currentSetupArgument in $setupArguments.GetEnumerator()) { <# Using [System.String]::IsNullOrEmpty() instead if comparing against an empty string ('') because the numeric value zero (0) equals to an empty string. This is evaluated to $true: 0 -eq '' #> if (-not [System.String]::IsNullOrEmpty($currentSetupArgument.Value)) { # Arrays are handled specially if ($currentSetupArgument.Value -is [System.Array]) { # Sort and format the array $setupArgumentValue = ( $currentSetupArgument.Value | Sort-Object | ForEach-Object -Process { '"{0}"' -f $_ } ) -join ' ' } elseif ($currentSetupArgument.Value -is [System.Boolean]) { $setupArgumentValue = @{ $true = 'True' $false = 'False' }[$currentSetupArgument.Value] $setupArgumentValue = '"{0}"' -f $setupArgumentValue } else { # Features are comma-separated, no quotes if ($currentSetupArgument.Key -eq 'Features') { $setupArgumentValue = $currentSetupArgument.Value } else { # Logic added as a fix for Issue#1254 SqlSetup:Fails when a root directory is specified if ($currentSetupArgument.Value -match '^[a-zA-Z]:\\$') { $setupArgumentValue = $currentSetupArgument.Value } else { $setupArgumentValue = '"{0}"' -f $currentSetupArgument.Value } } } $arguments += "/$($currentSetupArgument.Key.ToUpper())=$($setupArgumentValue) " } } if ($PSBoundParameters.ContainsKey('UseEnglish') -and $UseEnglish) { $arguments += '/ENU' } # Replace sensitive values for verbose output $log = $arguments if ($SecurityMode -eq 'SQL') { $log = $log.Replace($SAPwd.GetNetworkCredential().Password, "********") } if ($ProductKey -ne "") { $log = $log.Replace($ProductKey, "*****-*****-*****-*****-*****") } $logVars = @('AgtSvcAccount', 'SQLSvcAccount', 'FTSvcAccount', 'RSSvcAccount', 'ASSvcAccount', 'ISSvcAccount') foreach ($logVar in $logVars) { if ($PSBoundParameters.ContainsKey($logVar)) { $log = $log.Replace((Get-Variable -Name $logVar).Value.GetNetworkCredential().Password, "********") } } $arguments = $arguments.Trim() try { Write-Verbose -Message ($script:localizedData.SetupArguments -f $log) <# This handles when PsDscRunAsCredential is set, or running as the SYSTEM account (when PsDscRunAsCredential is not set). #> $startProcessParameters = @{ FilePath = $pathToSetupExecutable ArgumentList = $arguments Timeout = $SetupProcessTimeout } $processExitCode = Start-SqlSetupProcess @startProcessParameters $setupExitMessage = ($script:localizedData.SetupExitMessage -f $processExitCode) if ($processExitCode -eq 3010 -and -not $SuppressReboot) { $setupExitMessageRebootRequired = ('{0} {1}' -f $setupExitMessage, ($script:localizedData.SetupSuccessfulRebootRequired)) Write-Verbose -Message $setupExitMessageRebootRequired # Setup ended with error code 3010 which means reboot is required. $global:DSCMachineStatus = 1 } elseif ($processExitCode -ne 0) { $setupExitMessageError = ('{0} {1}' -f $setupExitMessage, ($script:localizedData.SetupFailed)) Write-Warning $setupExitMessageError $setupEndedInError = $true } else { $setupExitMessageSuccessful = ('{0} {1}' -f $setupExitMessage, ($script:localizedData.SetupSuccessful)) Write-Verbose -Message $setupExitMessageSuccessful } if ($ForceReboot -or (Test-PendingRestart)) { if (-not ($SuppressReboot)) { Write-Verbose -Message $script:localizedData.Reboot # Rebooting, so no point in refreshing the session. $forceReloadPowerShellModule = $false $global:DSCMachineStatus = 1 } else { Write-Verbose -Message $script:localizedData.SuppressReboot $forceReloadPowerShellModule = $true } } else { $forceReloadPowerShellModule = $true } if ((-not $setupEndedInError) -and $forceReloadPowerShellModule) { <# Force reload of SQLPS module in case a newer version of SQL Server was installed that contains a newer version of the SQLPS module, although if SqlServer module exist on the target node, that will be used regardless. This is to make sure we use the latest SQLPS module that matches the latest assemblies in GAC, mitigating for example issue #1151. #> Import-SQLPSModule -Force } if (-not (Test-TargetResource @PSBoundParameters)) { $errorMessage = $script:localizedData.TestFailedAfterSet New-InvalidResultException -Message $errorMessage } } catch { throw $_ } } <# .SYNOPSIS Tests if the SQL Server features are installed on the node. .PARAMETER Action The action to be performed. Default value is 'Install'. Possible values are 'Install', 'Upgrade', 'InstallFailoverCluster', 'AddNode', 'PrepareFailoverCluster', and 'CompleteFailoverCluster'. .PARAMETER SourcePath The path to the root of the source files for installation. I.e and UNC path to a shared resource. Environment variables can be used in the path. .PARAMETER SourceCredential Credentials used to access the path set in the parameter `SourcePath`. Using this parameter will trigger a copy of the installation media to a temp folder on the target node. Setup will then be started from the temp folder on the target node. For any subsequent calls to the resource, the parameter `SourceCredential` is used to evaluate what major version the file 'setup.exe' has in the path set, again, by the parameter `SourcePath`. If the path, that is assigned to parameter `SourcePath`, contains a leaf folder, for example '\\server\share\folder', then that leaf folder will be used as the name of the temporary folder. If the path, that is assigned to parameter `SourcePath`, does not have a leaf folder, for example '\\server\share', then a unique guid will be used as the name of the temporary folder. .PARAMETER SuppressReboot Suppresses reboot. .PARAMETER ForceReboot Forces reboot. .PARAMETER Features SQL features to be installed. .PARAMETER InstanceName Name of the SQL instance to be installed. .PARAMETER InstanceID SQL instance ID, if different from InstanceName. .PARAMETER ProductKey Product key for licensed installations. .PARAMETER UpdateEnabled Enabled updates during installation. .PARAMETER UpdateSource Path to the source of updates to be applied during installation. .PARAMETER SQMReporting Enable customer experience reporting. .PARAMETER ErrorReporting Enable error reporting. .PARAMETER InstallSharedDir Installation path for shared SQL files. .PARAMETER InstallSharedWOWDir Installation path for x86 shared SQL files. .PARAMETER InstanceDir Installation path for SQL instance files. .PARAMETER SQLSvcAccount Service account for the SQL service. .PARAMETER AgtSvcAccount Service account for the SQL Agent service. .PARAMETER SQLCollation Collation for SQL. .PARAMETER SQLSysAdminAccounts Array of accounts to be made SQL administrators. .PARAMETER SecurityMode Security mode to apply to the SQL Server instance. 'SQL' indicates mixed-mode authentication while 'Windows' indicates Windows authentication. Default is Windows. { *Windows* | SQL } .PARAMETER SAPwd SA password, if SecurityMode is set to 'SQL'. .PARAMETER InstallSQLDataDir Root path for SQL database files. .PARAMETER SQLUserDBDir Path for SQL database files. .PARAMETER SQLUserDBLogDir Path for SQL log files. .PARAMETER SQLTempDBDir Path for SQL TempDB files. .PARAMETER SQLTempDBLogDir Path for SQL TempDB log files. .PARAMETER SQLBackupDir Path for SQL backup files. .PARAMETER FTSvcAccount Service account for the Full Text service. .PARAMETER RSSvcAccount Service account for Reporting Services service. .PARAMETER RSInstallMode Install mode for Reporting Services. .PARAMETER ASSvcAccount Service account for Analysis Services service. .PARAMETER ASCollation Collation for Analysis Services. .PARAMETER ASSysAdminAccounts Array of accounts to be made Analysis Services admins. .PARAMETER ASDataDir Path for Analysis Services data files. .PARAMETER ASLogDir Path for Analysis Services log files. .PARAMETER ASBackupDir Path for Analysis Services backup files. .PARAMETER ASTempDir Path for Analysis Services temp files. .PARAMETER ASConfigDir Path for Analysis Services config. .PARAMETER ASServerMode The server mode for SQL Server Analysis Services instance. The default is to install in Multidimensional mode. Valid values in a cluster scenario are MULTIDIMENSIONAL or TABULAR. Parameter ASServerMode is case-sensitive. All values must be expressed in upper case. { MULTIDIMENSIONAL | TABULAR | POWERPIVOT }. .PARAMETER ISSvcAccount Service account for Integration Services service. .PARAMETER SqlSvcStartupType Specifies the startup mode for SQL Server Engine service. .PARAMETER AgtSvcStartupType Specifies the startup mode for SQL Server Agent service. .PARAMETER IsSvcStartupType Specifies the startup mode for SQL Server Integration service. .PARAMETER AsSvcStartupType Specifies the startup mode for SQL Server Analysis service. .PARAMETER RsSvcStartupType Specifies the startup mode for SQL Server Report service. .PARAMETER BrowserSvcStartupType Specifies the startup mode for SQL Server Browser service. .PARAMETER FailoverClusterGroupName The name of the resource group to create for the clustered SQL Server instance. Default is 'SQL Server (InstanceName)'. .PARAMETER FailoverClusterIPAddress Array of IP Addresses to be assigned to the clustered SQL Server instance. .PARAMETER FailoverClusterNetworkName Host name to be assigned to the clustered SQL Server instance. .PARAMETER SqlTempdbFileCount Specifies the number of tempdb data files to be added by setup. .PARAMETER SqlTempdbFileSize Specifies the initial size of each tempdb data file in MB. .PARAMETER SqlTempdbFileGrowth Specifies the file growth increment of each tempdb data file in MB. .PARAMETER SqlTempdbLogFileSize Specifies the initial size of each tempdb log file in MB. .PARAMETER SqlTempdbLogFileGrowth Specifies the file growth increment of each tempdb data file in MB. .PARAMETER NpEnabled Specifies the state of the Named Pipes protocol for the SQL Server service. The value $true will enable the Named Pipes protocol and $false will disabled it. Not used in Test-TargetResource. .PARAMETER TcpEnabled Specifies the state of the TCP protocol for the SQL Server service. The value $true will enable the TCP protocol and $false will disabled it. Not used in Test-TargetResource. .PARAMETER SetupProcessTimeout The timeout, in seconds, to wait for the setup process to finish. Default value is 7200 seconds (2 hours). If the setup process does not finish before this time, and error will be thrown. .PARAMETER FeatureFlag Feature flags are used to toggle functionality on or off. See the documentation for what additional functionality exist through a feature flag. .PARAMETER UseEnglish Specifies to install the English version of SQL Server on a localized operating system when the installation media includes language packs for both English and the language corresponding to the operating system. Not used in Test-TargetResource. .PARAMETER SkipRule Specifies optional skip rules during setup. Not used in Test-TargetResource. #> function Test-TargetResource { [CmdletBinding()] [OutputType([System.Boolean])] param ( [Parameter()] [ValidateSet('Install', 'Upgrade', 'InstallFailoverCluster', 'AddNode', 'PrepareFailoverCluster', 'CompleteFailoverCluster')] [System.String] $Action = 'Install', [Parameter()] [System.String] $SourcePath, [Parameter()] [System.Management.Automation.PSCredential] $SourceCredential, [Parameter()] [System.Boolean] $SuppressReboot, [Parameter()] [System.Boolean] $ForceReboot, [Parameter()] [System.String] $Features, [Parameter(Mandatory = $true)] [System.String] $InstanceName, [Parameter()] [System.String] $InstanceID, [Parameter()] [System.String] $ProductKey, [Parameter()] [System.String] $UpdateEnabled, [Parameter()] [System.String] $UpdateSource, [Parameter()] [System.String] $SQMReporting, [Parameter()] [System.String] $ErrorReporting, [Parameter()] [System.String] $InstallSharedDir, [Parameter()] [System.String] $InstallSharedWOWDir, [Parameter()] [System.String] $InstanceDir, [Parameter()] [System.Management.Automation.PSCredential] $SQLSvcAccount, [Parameter()] [System.Management.Automation.PSCredential] $AgtSvcAccount, [Parameter()] [System.String] $SQLCollation, [Parameter()] [System.String[]] $SQLSysAdminAccounts, [Parameter()] [ValidateSet('SQL', 'Windows')] [System.String] $SecurityMode, [Parameter()] [System.Management.Automation.PSCredential] $SAPwd, [Parameter()] [System.String] $InstallSQLDataDir, [Parameter()] [System.String] $SQLUserDBDir, [Parameter()] [System.String] $SQLUserDBLogDir, [Parameter()] [System.String] $SQLTempDBDir, [Parameter()] [System.String] $SQLTempDBLogDir, [Parameter()] [System.String] $SQLBackupDir, [Parameter()] [System.Management.Automation.PSCredential] $FTSvcAccount, [Parameter()] [System.Management.Automation.PSCredential] $RSSvcAccount, [Parameter()] [ValidateSet('SharePointFilesOnlyMode', 'DefaultNativeMode', 'FilesOnlyMode')] [System.String] $RSInstallMode, [Parameter()] [System.Management.Automation.PSCredential] $ASSvcAccount, [Parameter()] [System.String] $ASCollation, [Parameter()] [System.String[]] $ASSysAdminAccounts, [Parameter()] [System.String] $ASDataDir, [Parameter()] [System.String] $ASLogDir, [Parameter()] [System.String] $ASBackupDir, [Parameter()] [System.String] $ASTempDir, [Parameter()] [System.String] $ASConfigDir, [Parameter()] [ValidateSet('MULTIDIMENSIONAL', 'TABULAR', 'POWERPIVOT', IgnoreCase = $false)] [System.String] $ASServerMode, [Parameter()] [System.Management.Automation.PSCredential] $ISSvcAccount, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $SqlSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $AgtSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $IsSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $AsSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $RsSvcStartupType, [Parameter()] [System.String] [ValidateSet('Automatic', 'Disabled', 'Manual')] $BrowserSvcStartupType, [Parameter(ParameterSetName = 'ClusterInstall')] [System.String] $FailoverClusterGroupName, [Parameter(ParameterSetName = 'ClusterInstall')] [System.String[]] $FailoverClusterIPAddress, [Parameter(ParameterSetName = 'ClusterInstall')] [System.String] $FailoverClusterNetworkName, [Parameter()] [System.UInt32] $SqlTempdbFileCount, [Parameter()] [System.UInt32] $SqlTempdbFileSize, [Parameter()] [System.UInt32] $SqlTempdbFileGrowth, [Parameter()] [System.UInt32] $SqlTempdbLogFileSize, [Parameter()] [System.UInt32] $SqlTempdbLogFileGrowth, [Parameter()] [System.Boolean] $NpEnabled, [Parameter()] [System.Boolean] $TcpEnabled, [Parameter()] [System.UInt32] $SetupProcessTimeout = 7200, [Parameter()] [System.String[]] $FeatureFlag, [Parameter()] [System.Boolean] $UseEnglish, [Parameter()] [ValidateNotNullOrEmpty()] [System.String[]] $SkipRule ) <# Fixing issue 448, setting FailoverClusterGroupName to default value if not specified in configuration. #> if (-not $PSBoundParameters.ContainsKey('FailoverClusterGroupName')) { $FailoverClusterGroupName = 'SQL Server ({0})' -f $InstanceName } $getTargetResourceParameters = @{ Action = $Action SourcePath = $SourcePath SourceCredential = $SourceCredential InstanceName = $InstanceName FailoverClusterNetworkName = $FailoverClusterNetworkName FeatureFlag = $FeatureFlag } $boundParameters = $PSBoundParameters $getTargetResourceResult = Get-TargetResource @getTargetResourceParameters if ($null -eq $getTargetResourceResult.Features -or $getTargetResourceResult.Features -eq '') { Write-Verbose -Message $script:localizedData.NoFeaturesFound } else { Write-Verbose -Message ($script:localizedData.FeaturesFound -f $getTargetResourceResult.Features) } $result = $true if ($getTargetResourceResult.Features) { $featuresArray = $Features -split ',' $foundFeaturesArray = $getTargetResourceResult.Features -split ',' foreach ($feature in $featuresArray) { if ($feature -notin $foundFeaturesArray) { Write-Verbose -Message ($script:localizedData.UnableToFindFeature -f $feature, $($getTargetResourceResult.Features)) $result = $false } } } else { $result = $false } if ($PSCmdlet.ParameterSetName -eq 'ClusterInstall') { Write-Verbose -Message $script:localizedData.EvaluatingClusterParameters $boundParameters.Keys | Where-Object -FilterScript { $_ -imatch "^FailoverCluster" } | ForEach-Object -Process { $variableName = $_ if ($getTargetResourceResult.$variableName -ne $boundParameters[$variableName]) { Write-Verbose -Message ($script:localizedData.ClusterParameterIsNotInDesiredState -f $variableName, $($boundParameters[$variableName])) $result = $false } } } if ($getTargetResourceParameters.Action -eq 'Upgrade') { $installerSqlVersion = Get-FilePathMajorVersion -Path (Join-Path -Path $sourcePath -ChildPath 'setup.exe') $instanceSqlVersion = Get-SQLInstanceMajorVersion -InstanceName $InstanceName if ($installerSQLVersion -gt $instanceSqlVersion) { Write-Verbose -Message ( $script:localizedData.DifferentMajorVersion -f $InstanceName, $instanceSqlVersion, $installerSqlVersion ) $result = $false } } return $result } <# .SYNOPSIS Returns the first item value in the registry location provided in the Path parameter. .PARAMETER Path String containing the path to the registry. .NOTES The property values that is returned from Get-Item can for example look like this: Get-Item -Path 'HKLM:\SOFTWARE\Microsoft\Windows\CurrentVersion\Installer\UserData\S-1-5-18\Components\FEE2E540D20152D4597229B6CFBC0A69' Name Property ---- -------- FEE2E540D20152D4597229B6CFBC0A DCB13571726C2A64F9E1C79C020E9EA4 : C:\Program Files\Microsoft SQL Server\ 69 52A7B04BB8030564B8245E7101DC4D9D : C:\Program Files\Microsoft SQL Server\ 17195C960C1F3104DB7F109DB81562E3 : C:\Program Files\Microsoft SQL Server\ F07EA859E694B45439E22B819F70A40F : C:\Program Files\Microsoft SQL Server\ 3F9A28055EEA9364B97A1C6916AB3713 : C:\Program Files\Microsoft SQL Server\ #> function Get-FirstPathValueFromRegistryPath { [CmdletBinding()] param ( [Parameter(Mandatory = $true)] [System.String] $Path ) $registryProperty = Get-Item -Path $Path -ErrorAction 'SilentlyContinue' if ($registryProperty) { $registryProperty = $registryProperty | Select-Object -ExpandProperty Property | Select-Object -First 1 if ($registryProperty) { $registryPropertyValue = (Get-ItemProperty -Path $Path -Name $registryProperty).$registryProperty.TrimEnd('\') } } return $registryPropertyValue } <# .SYNOPSIS Returns the decimal representation of an IP Addresses. .PARAMETER IPAddress The IP Address to be converted. #> function ConvertTo-Decimal { [CmdletBinding()] [OutputType([System.UInt32])] param ( [Parameter(Mandatory = $true)] [System.Net.IPAddress] $IPAddress ) $i = 3 $decimalIpAddress = 0 $IPAddress.GetAddressBytes() | ForEach-Object -Process { $decimalIpAddress += $_ * [Math]::Pow(256, $i) $i-- } return [System.UInt32] $decimalIpAddress } <# .SYNOPSIS Determines whether an IP Address is valid for a given network / subnet. .PARAMETER IPAddress IP Address to be checked. .PARAMETER NetworkID IP Address of the network identifier. .PARAMETER SubnetMask Subnet mask of the network to be checked. #> function Test-IPAddress { [CmdletBinding()] param ( [Parameter(Mandatory = $true)] [System.Net.IPAddress] $IPAddress, [Parameter(Mandatory = $true)] [System.Net.IPAddress] $NetworkID, [Parameter(Mandatory = $true)] [System.Net.IPAddress] $SubnetMask ) # Convert all values to decimal $IPAddressDecimal = ConvertTo-Decimal -IPAddress $IPAddress $NetworkDecimal = ConvertTo-Decimal -IPAddress $NetworkID $SubnetDecimal = ConvertTo-Decimal -IPAddress $SubnetMask # Determine whether the IP Address is valid for this network / subnet return (($IPAddressDecimal -band $SubnetDecimal) -eq ($NetworkDecimal -band $SubnetDecimal)) } <# .SYNOPSIS Builds service account parameters for setup. .PARAMETER ServiceAccount Credential for the service account. .PARAMETER ServiceType Type of service account. #> function Get-ServiceAccountParameters { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter(Mandatory = $true)] [System.Management.Automation.PSCredential] $ServiceAccount, [Parameter(Mandatory = $true)] [ValidateSet('SQL', 'AGT', 'IS', 'RS', 'AS', 'FT')] [System.String] $ServiceType ) # Get the service account properties $accountParameters = Get-ServiceAccount -ServiceAccount $ServiceAccount $parameters = @{} # Assign the service type the account $parameters = @{ "$($ServiceType)SVCACCOUNT" = $accountParameters.UserName } # Check to see if password is null if (![string]::IsNullOrEmpty($accountParameters.Password)) { # Add the password to the hashtable $parameters.Add("$($ServiceType)SVCPASSWORD", $accountParameters.Password) } return $parameters } <# .SYNOPSIS Converts the start mode property returned by a Win32_Service CIM object to the resource properties *StartupType equivalent .PARAMETER StartMode The StartMode to convert. #> function ConvertTo-StartupType { param ( [Parameter()] [System.String] $StartMode ) if ($StartMode -eq 'Auto') { $StartMode = 'Automatic' } return $StartMode } <# .SYNOPSIS Returns an array of installed shared features. .PARAMETER SqlServerMajorVersion Specifies the major version of SQL Server, e.g. 14 for SQL Server 2017. #> function Get-InstalledSharedFeatures { [CmdletBinding()] [OutputType([System.String[]])] param ( [Parameter(Mandatory = $true)] [System.Int32] $SqlServerMajorVersion ) $sharedFeatures = @() $configurationStateRegistryPath = "HKLM:\SOFTWARE\Microsoft\Microsoft SQL Server\$($SqlServerMajorVersion)0\ConfigurationState" # Check if Data Quality Client sub component is configured Write-Verbose -Message ($script:localizedData.EvaluateDataQualityClientFeature -f $configurationStateRegistryPath) $isDQCInstalled = (Get-ItemProperty -Path $configurationStateRegistryPath -ErrorAction SilentlyContinue).SQL_DQ_CLIENT_Full if ($isDQCInstalled -eq 1) { Write-Verbose -Message $script:localizedData.DataQualityClientFeatureFound $sharedFeatures += 'DQC' } else { Write-Verbose -Message $script:localizedData.DataQualityClientFeatureNotFound } # Check if Documentation Components "BOL" is configured Write-Verbose -Message ($script:localizedData.EvaluateDocumentationComponentsFeature -f $configurationStateRegistryPath) $isBOLInstalled = (Get-ItemProperty -Path $configurationStateRegistryPath -ErrorAction SilentlyContinue).SQL_BOL_Components if ($isBOLInstalled -eq 1) { Write-Verbose -Message $script:localizedData.DocumentationComponentsFeatureFound $sharedFeatures += 'BOL' } else { Write-Verbose -Message $script:localizedData.DocumentationComponentsFeatureNotFound } # Check if Client Tools Connectivity (and SQL Client Connectivity SDK) "CONN" is configured Write-Verbose -Message ($script:localizedData.EvaluateDocumentationComponentsFeature -f $configurationStateRegistryPath) $isConnInstalled = (Get-ItemProperty -Path $configurationStateRegistryPath -ErrorAction SilentlyContinue).Connectivity_Full if ($isConnInstalled -eq 1) { Write-Verbose -Message $script:localizedData.ClientConnectivityToolsFeatureFound $sharedFeatures += 'CONN' } else { Write-Verbose -Message $script:localizedData.ClientConnectivityToolsFeatureNotFound } # Check if Client Tools Backwards Compatibility "BC" is configured Write-Verbose -Message ($script:localizedData.EvaluateDocumentationComponentsFeature -f $configurationStateRegistryPath) $isBcInstalled = (Get-ItemProperty -Path $configurationStateRegistryPath -ErrorAction SilentlyContinue).Tools_Legacy_Full if ($isBcInstalled -eq 1) { Write-Verbose -Message $script:localizedData.ClientConnectivityBackwardsCompatibilityToolsFeatureFound $sharedFeatures += 'BC' } else { Write-Verbose -Message $script:localizedData.ClientConnectivityBackwardsCompatibilityToolsFeatureNotFound } # Check if Client Tools SDK "SDK" is configured Write-Verbose -Message ($script:localizedData.EvaluateDocumentationComponentsFeature -f $configurationStateRegistryPath) $isSdkInstalled = (Get-ItemProperty -Path $configurationStateRegistryPath -ErrorAction SilentlyContinue).SDK_Full if ($isSdkInstalled -eq 1) { Write-Verbose -Message $script:localizedData.ClientToolsSdkFeatureFound $sharedFeatures += 'SDK' } else { Write-Verbose -Message $script:localizedData.ClientToolsSdkFeatureNotFound } # Check if MDS sub component is configured for this server Write-Verbose -Message ($script:localizedData.EvaluateMasterDataServicesFeature -f $configurationStateRegistryPath) $isMDSInstalled = (Get-ItemProperty -Path $configurationStateRegistryPath -ErrorAction SilentlyContinue).MDSCoreFeature if ($isMDSInstalled -eq 1) { Write-Verbose -Message $script:localizedData.MasterDataServicesFeatureFound $sharedFeatures += 'MDS' } else { Write-Verbose -Message $script:localizedData.MasterDataServicesFeatureNotFound } return $sharedFeatures } <# .SYNOPSIS Test if the specific feature flag should be enabled. .PARAMETER FeatureFlag An array of feature flags that should be compared against. .PARAMETER TestFlag The feature flag that is being check if it should be enabled. #> function Test-FeatureFlag { [CmdletBinding()] [OutputType([System.Boolean])] param ( [Parameter()] [System.String[]] $FeatureFlag, [Parameter(Mandatory = $true)] [System.String] $TestFlag ) $flagEnabled = $FeatureFlag -and ($FeatureFlag -and $FeatureFlag.Contains($TestFlag)) return $flagEnabled } <# .SYNOPSIS Get current properties for the feature SQLENGINE. .PARAMETER ServerName Specifies the server name where the database engine instance is located. .PARAMETER InstanceName Specifies the instance name. Use 'MSSQLSERVER' for the default instance. .PARAMETER DatabaseServiceName Specifies the name of the SQL Server Database Engine service. .PARAMETER AgentServiceName Specifies the name of the SQL Server Agent service. .OUTPUTS An hashtable with properties. #> function Get-SqlEngineProperties { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter(Mandatory = $true)] [System.String] $ServerName, [Parameter(Mandatory = $true)] [System.String] $InstanceName ) $serviceNames = Get-ServiceNamesForInstance -InstanceName $InstanceName #$sqlServiceCimInstance = Get-CimInstance -ClassName 'Win32_Service' -Filter ("Name = '{0}'" -f $serviceNames.DatabaseService) $databaseEngineService = Get-ServiceProperties -ServiceName $serviceNames.DatabaseService #$agentServiceCimInstance = Get-CimInstance -ClassName 'Win32_Service' -Filter ("Name = '{0}'" -f $serviceNames.AgentService) $sqlAgentService = Get-ServiceProperties -ServiceName $serviceNames.AgentService $sqlServerObject = Connect-SQL -ServerName $ServerName -InstanceName $InstanceName $sqlCollation = $sqlServerObject.Collation $isClustered = $sqlServerObject.IsClustered $installSQLDataDirectory = $sqlServerObject.InstallDataDirectory $sqlUserDatabaseDirectory = $sqlServerObject.DefaultFile $sqlUserDatabaseLogDirectory = $sqlServerObject.DefaultLog $sqlBackupDirectory = $sqlServerObject.BackupDirectory if ($sqlServerObject.LoginMode -eq 'Mixed') { $securityMode = 'SQL' } else { $securityMode = 'Windows' } return @{ SQLSvcAccountUsername = $databaseEngineService.UserName AgtSvcAccountUsername = $sqlAgentService.UserName SqlSvcStartupType = $databaseEngineService.StartupType AgtSvcStartupType = $sqlAgentService.StartupType SQLCollation = $sqlCollation IsClustered = $isClustered InstallSQLDataDir = $installSQLDataDirectory SQLUserDBDir = $sqlUserDatabaseDirectory SQLUserDBLogDir = $sqlUserDatabaseLogDirectory SQLBackupDir = $sqlBackupDirectory SecurityMode = $securityMode } } <# .SYNOPSIS Returns the SQL Server full instance ID. .PARAMETER InstanceName Specifies the instance name. Use 'MSSQLSERVER' for the default instance. .OUTPUTS A string containing the full instance ID, e.g. 'MSSQL12.INSTANCE'. #> function Get-FullInstanceId { [CmdletBinding()] [OutputType([System.String])] param ( [Parameter(Mandatory = $true)] [System.String] $InstanceName ) $getRegistryPropertyValueParameters = @{ Path = 'HKLM:\SOFTWARE\Microsoft\Microsoft SQL Server\Instance Names\SQL' Name = $InstanceName } return (Get-RegistryPropertyValue @getRegistryPropertyValueParameters) } <# .SYNOPSIS Evaluates if the feature Replication is installed. .PARAMETER InstanceName Specifies the instance name. Use 'MSSQLSERVER' for the default instance. .OUTPUTS A boolean value. $true if it is installed, $false if is it not. #> function Test-IsReplicationFeatureInstalled { [CmdletBinding()] [OutputType([System.Boolean])] param ( [Parameter(Mandatory = $true)] [System.String] $InstanceName ) $isReplicationInstalled = $false $fullInstanceId = Get-FullInstanceId -InstanceName $InstanceName # Check if Replication sub component is configured for this instance $replicationRegistryPath = "HKLM:\SOFTWARE\Microsoft\Microsoft SQL Server\$fullInstanceId\ConfigurationState" $replicationInstallValue = Get-RegistryPropertyValue -Path $replicationRegistryPath -Name 'SQL_Replication_Core_Inst' if ($replicationInstallValue -eq 1) { $isReplicationInstalled = $true } return $isReplicationInstalled } <# .SYNOPSIS Evaluates if the Data Quality Services sub component is installed. .PARAMETER InstanceName Specifies the instance name. Use 'MSSQLSERVER' for the default instance. .PARAMETER SqlServerMajorVersion Specifies the major version of SQL Server, e.g. 14 for SQL Server 2017. .OUTPUTS A boolean value. $true if it is installed, $false if is it not. #> function Test-IsDQComponentInstalled { [CmdletBinding()] [OutputType([System.Boolean])] param ( [Parameter(Mandatory = $true)] [System.String] $InstanceName, [Parameter(Mandatory = $true)] [System.Int32] $SqlServerMajorVersion ) $isDQInstalled = $false $dataQualityServicesRegistryPath = "HKLM:\SOFTWARE\Microsoft\Microsoft SQL Server\$($SqlServerMajorVersion)0\DQ\*" # If the path exist then we assume the feature is installed. $dataQualityServiceRegistryValues = Get-ItemProperty -Path $dataQualityServicesRegistryPath -ErrorAction 'SilentlyContinue' if ($dataQualityServiceRegistryValues) { $isDQInstalled = $true } return $isDQInstalled } <# .SYNOPSIS Returns the SQL Server instance program path. .PARAMETER InstanceName Specifies the instance name. Use 'MSSQLSERVER' for the default instance. .OUTPUTS A string containing the path to the instance program folder, e.g. 'C:\Program Files\Microsoft SQL Server'. #> function Get-InstanceProgramPath { [CmdletBinding()] [OutputType([System.Boolean])] param ( [Parameter(Mandatory = $true)] [System.String] $InstanceName ) $fullInstanceId = Get-FullInstanceId -InstanceName $InstanceName # Check if Replication sub component is configured for this instance $registryPath = 'HKLM:\SOFTWARE\Microsoft\Microsoft SQL Server\{0}\Setup' -f $fullInstanceId $instanceDirectory = Get-RegistryPropertyValue -Path $registryPath -Name 'SqlProgramDir' return $instanceDirectory.Trim('\') } <# .SYNOPSIS Get current properties for the TempDB in the database engine. .PARAMETER ServerName Specifies the server name where the database engine instance is located. .PARAMETER InstanceName Specifies the instance name. Use 'MSSQLSERVER' for the default instance. .OUTPUTS An hashtable with properties. #> function Get-TempDbProperties { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter(Mandatory = $true)] [System.String] $ServerName, [Parameter(Mandatory = $true)] [System.String] $InstanceName ) $sqlServerObject = Connect-SQL -ServerName $ServerName -InstanceName $InstanceName $databaseTempDb = $sqlServerObject.Databases['tempdb'] # Tempdb data primary path. $sqlTempDBPrimaryFilePath = $databaseTempDb.PrimaryFilePath $primaryFileGroup = $databaseTempDb.FileGroups['PRIMARY'] # Tempdb data files count. $sqlTempdbFileCount = $primaryFileGroup.Files.Count # Tempdb data files size. $sqlTempdbFileSize = ( $primaryFileGroup.Files.Size | Measure-Object -Average ).Average / 1KB # Tempdb data files average growth in KB. $sqlTempdbAverageFileGrowthKB = ( $primaryFileGroup.Files | Where-Object -FilterScript { $_.GrowthType -eq 'KB' } | Select-Object -ExpandProperty 'Growth' | Measure-Object -Average ).Average # Tempdb data files average growth in Percent. $sqlTempdbFileGrowthPercent = ( $primaryFileGroup.Files | Where-Object -FilterScript { $_.GrowthType -eq 'Percent' } | Select-Object -ExpandProperty 'Growth' | Measure-Object -Average ).Average $sqlTempdbFileGrowthMB = 0 # Convert the KB value into MB. if ($sqlTempdbAverageFileGrowthKB) { $sqlTempdbFileGrowthMB = $sqlTempdbAverageFileGrowthKB / 1KB } $sqlTempdbFileGrowth = $sqlTempdbFileGrowthMB + $sqlTempdbFileGrowthPercent $tempdbLogFiles = $databaseTempDb.LogFiles # Tempdb log file size. $sqlTempdbLogFileSize = ($tempdbLogFiles.Size | Measure-Object -Average).Average / 1KB # Tempdb log file average growth in KB. $sqlTempdbAverageLogFileGrowthKB = ( $tempdbLogFiles | Where-Object -FilterScript { $_.GrowthType -eq 'KB' } | Select-Object -ExpandProperty 'Growth' | Measure-Object -Average ).Average # Tempdb log file average growth in Percent. $sqlTempdbLogFileGrowthPercent = ( $tempdbLogFiles | Where-Object -FilterScript { $_.GrowthType -eq 'Percent' } | Select-Object -ExpandProperty 'Growth' | Measure-Object -Average ).Average # Convert the KB value into MB. if ($sqlTempdbAverageLogFileGrowthKB) { $sqlTempdbLogFileGrowthMB = $sqlTempdbAverageLogFileGrowthKB / 1KB } else { $sqlTempdbLogFileGrowthMB = 0 } # The sum of the average growth in KB and average growth in Percent. $sqlTempdbLogFileGrowth = $sqlTempdbLogFileGrowthMB + $sqlTempdbLogFileGrowthPercent return @{ SQLTempDBDir = $sqlTempDBPrimaryFilePath SqlTempdbFileCount = $sqlTempdbFileCount SqlTempdbFileSize = $sqlTempdbFileSize SqlTempdbFileGrowth = $sqlTempdbFileGrowth SqlTempdbLogFileSize = $sqlTempdbLogFileSize SqlTempdbLogFileGrowth = $sqlTempdbLogFileGrowth } } <# .SYNOPSIS Get the correct service named based on the instance name. .PARAMETER InstanceName Specifies the instance name. Use 'MSSQLSERVER' for the default instance. .PARAMETER SqlServerMajorVersion Specifies the major version of SQL Server, e.g. 14 for SQL Server 2017. If this is not passed the service name for Integration Services cannot be determined and will return $null. .OUTPUTS An hashtable with the service names. #> function Get-ServiceNamesForInstance { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter(Mandatory = $true)] [System.String] $InstanceName, [Parameter()] [System.Int32] $SqlServerMajorVersion ) $serviceNames = @{} if ($InstanceName -eq 'MSSQLSERVER') { $serviceNames.DatabaseService = 'MSSQLSERVER' $serviceNames.AgentService = 'SQLSERVERAGENT' $serviceNames.FullTextService = 'MSSQLFDLauncher' $serviceNames.ReportService = 'ReportServer' $serviceNames.AnalysisService = 'MSSQLServerOLAPService' } else { $serviceNames.DatabaseService = 'MSSQL${0}' -f $InstanceName $serviceNames.AgentService = 'SQLAgent${0}' -f $InstanceName $serviceNames.FullTextService = 'MSSQLFDLauncher${0}' -f $InstanceName $serviceNames.ReportService = 'ReportServer${0}' -f $InstanceName $serviceNames.AnalysisService = 'MSOLAP${0}' -f $InstanceName } if ($PSBoundParameters.ContainsKey('SqlServerMajorVersion')) { $serviceNames.IntegrationService = 'MsDtsServer{0}0' -f $SqlServerMajorVersion } else { $serviceNames.IntegrationService = $null } return $serviceNames } <# .SYNOPSIS Get members that are part of a SQL system role. .PARAMETER ServerName Specifies the server name where the database engine instance is located. .PARAMETER InstanceName Specifies the instance name. Use 'MSSQLSERVER' for the default instance. .PARAMETER RoleName Specifies the name of the role to get the members for. .OUTPUTS An hashtable with properties containing the current cluster values. #> function Get-SqlRoleMembers { [CmdletBinding()] [OutputType([System.Object[]])] param ( [Parameter(Mandatory = $true)] [System.String] $ServerName, [Parameter(Mandatory = $true)] [System.String] $InstanceName, [Parameter(Mandatory = $true)] [System.String] $RoleName ) $sqlServerObject = Connect-SQL -ServerName $ServerName -InstanceName $InstanceName $membersOfSysAdminRole = @($sqlServerObject.Roles[$RoleName].EnumMemberNames()) # Make sure to alway return an array of object even if there is only one value. return , $membersOfSysAdminRole } <# .SYNOPSIS Get current SQL Server cluster properties. .PARAMETER InstanceName Specifies the instance name. Use 'MSSQLSERVER' for the default instance. .OUTPUTS An hashtable with properties. #> function Get-SqlClusterProperties { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter(Mandatory = $true)] [System.String] $InstanceName ) $getCimInstanceParameters = @{ Namespace = 'root/MSCluster' ClassName = 'MSCluster_Resource' Filter = "Type = 'SQL Server'" } $clusteredSqlInstance = Get-CimInstance @getCimInstanceParameters | Where-Object -FilterScript { $_.PrivateProperties.InstanceName -eq $InstanceName } if (-not $clusteredSqlInstance) { $errorMessage = $script:localizedData.FailoverClusterResourceNotFound -f $InstanceName New-ObjectNotFoundException -Message $errorMessage } Write-Verbose -Message $script:localizedData.FailoverClusterResourceFound $clusteredSqlGroup = $clusteredSqlInstance | Get-CimAssociatedInstance -ResultClassName 'MSCluster_ResourceGroup' $clusteredSqlNetworkName = $clusteredSqlGroup | Get-CimAssociatedInstance -ResultClassName 'MSCluster_Resource' | Where-Object -FilterScript { $_.Type -eq 'Network Name' } $clusteredSqlIPAddress = $clusteredSqlNetworkName | Get-CimAssociatedInstance -ResultClassName 'MSCluster_Resource' | Where-Object -FilterScript { $_.Type -eq 'IP Address' } return @{ FailoverClusterNetworkName = $clusteredSqlNetworkName.PrivateProperties.DnsName FailoverClusterGroupName = $clusteredSqlGroup.Name FailoverClusterIPAddress = $clusteredSqlIPAddress.PrivateProperties.Address } } <# .SYNOPSIS Get current properties for a service. Returns the user name that starts the service, and the startup type. .PARAMETER ServiceName Specifies the service name. .OUTPUTS An hashtable with properties. #> function Get-ServiceProperties { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter(Mandatory = $true)] [System.String] $ServiceName ) $cimInstance = Get-CimInstance -ClassName 'Win32_Service' -Filter ("Name = '{0}'" -f $ServiceName) return @{ UserName = $cimInstance.StartName StartupType = ConvertTo-StartupType -StartMode $cimInstance.StartMode } } <# .SYNOPSIS Evaluates if the SQL Server Management Studio for the specified SQL Server major version is installed. .PARAMETER SqlServerMajorVersion Specifies the major version of SQL Server, e.g. 14 for SQL Server 2017. .OUTPUTS A boolean value. $true if it is installed, $false if is it not. #> function Test-IsSsmsInstalled { [CmdletBinding()] [OutputType([System.Boolean])] param ( [Parameter(Mandatory = $true)] [System.Int32] $SqlServerMajorVersion ) $isInstalled = $false switch ($SqlServerMajorVersion) { 10 { <# Verify if SQL Server Management Studio 2008 or SQL Server Management Studio 2008 R2 (major version 10) is installed. #> $productIdentifyingNumber = '{72AB7E6F-BC24-481E-8C45-1AB5B3DD795D}' } 11 { # Verify if SQL Server Management Studio 2012 (major version 11) is installed. $productIdentifyingNumber = '{A7037EB2-F953-4B12-B843-195F4D988DA1}' } 12 { # Verify if SQL Server Management Studio 2012 (major version 11) is installed. $productIdentifyingNumber = '{75A54138-3B98-4705-92E4-F619825B121F}' } default { # If an unsupported version was passed, make sure the function returns $false. $productIdentifyingNumber = $null } } if ($productIdentifyingNumber) { $registryUninstallPath = 'HKLM:\Software\Microsoft\Windows\CurrentVersion\Uninstall' $registryObject = Get-ItemProperty -Path ( Join-Path -Path $registryUninstallPath -ChildPath $productIdentifyingNumber ) -ErrorAction 'SilentlyContinue' if ($registryObject) { $isInstalled = $true } } return $isInstalled } <# .SYNOPSIS Evaluates if the SQL Server Management Studio Advanced for the specified SQL Server major version is installed. .PARAMETER SqlServerMajorVersion Specifies the major version of SQL Server, e.g. 14 for SQL Server 2017. .OUTPUTS A boolean value. $true if it is installed, $false if is it not. #> function Test-IsSsmsAdvancedInstalled { [CmdletBinding()] [OutputType([System.Boolean])] param ( [Parameter(Mandatory = $true)] [System.Int32] $SqlServerMajorVersion ) $isInstalled = $false switch ($SqlServerMajorVersion) { 10 { <# Evaluating if SQL Server Management Studio Advanced 2008 or SQL Server Management Studio Advanced 2008 R2 (major version 10) is installed. #> $productIdentifyingNumber = '{B5FE23CC-0151-4595-84C3-F1DE6F44FE9B}' } 11 { <# Evaluating if SQL Server Management Studio Advanced 2012 (major version 11) is installed. #> $productIdentifyingNumber = '{7842C220-6E9A-4D5A-AE70-0E138271F883}' } 12 { <# Evaluating if SQL Server Management Studio Advanced 2014 (major version 12) is installed. #> $productIdentifyingNumber = '{B5ECFA5C-AC4F-45A4-A12E-A76ABDD9CCBA}' } default { <# If an unsupported version was passed, make sure the function returns $false. #> $productIdentifyingNumber = $null } } if ($productIdentifyingNumber) { $registryUninstallPath = 'HKLM:\Software\Microsoft\Windows\CurrentVersion\Uninstall' $registryObject = Get-ItemProperty -Path ( Join-Path -Path $registryUninstallPath -ChildPath $productIdentifyingNumber ) -ErrorAction 'SilentlyContinue' if ($registryObject) { $isInstalled = $true } } return $isInstalled } <# .SYNOPSIS Get current SQL Server shared paths for the instances. .OUTPUTS An hashtable with properties. #> function Get-SqlSharedPaths { [CmdletBinding()] [OutputType([System.Collections.Hashtable])] param ( [Parameter(Mandatory = $true)] [System.Int32] $SqlServerMajorVersion ) $installSharedDir = $null $installSharedWOWDir = $null $registryInstallerComponentsPath = 'HKLM:\SOFTWARE\Microsoft\Windows\CurrentVersion\Installer\UserData\S-1-5-18\Components' switch ($SqlServerMajorVersion) { { $_ -in ('10', '11', '12', '13', '14') } { $registryKeySharedDir = 'FEE2E540D20152D4597229B6CFBC0A69' $registryKeySharedWOWDir = 'A79497A344129F64CA7D69C56F5DD8B4' } } if ($registryKeySharedDir) { $installSharedDir = Get-FirstPathValueFromRegistryPath -Path (Join-Path -Path $registryInstallerComponentsPath -ChildPath $registryKeySharedDir) } if ($registryKeySharedWOWDir) { $installSharedWOWDir = Get-FirstPathValueFromRegistryPath -Path (Join-Path -Path $registryInstallerComponentsPath -ChildPath $registryKeySharedWOWDir) } return @{ InstallSharedDir = $installSharedDir InstallSharedWOWDir = $installSharedWOWDir } } |