Helpers/Launcher/PSRemoting/Get-LauncherPSRemotingWelcome.ps1
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<#
.SYNOPSIS Get the core performance counter and system information for the PowerShell Remoting launcher welcome screen. .DESCRIPTION This command will use CIM and Performance Counter as well as some other command line tools to get the current system summary. The summary will be returned as a PowerShell object. .EXAMPLE PS C:\> Get-LauncherPSRemotingWelcome Get the system summary of the local system. .EXAMPLE PS C:\> Get-LauncherPSRemotingWelcome -Session $session Get the system summary of the system behind the session. #> function Get-LauncherPSRemotingWelcome { [CmdletBinding()] param ( # Optional session to use for the system summary. [Parameter(Mandatory = $false)] [AllowNull()] [System.Management.Automation.Runspaces.PSSession] $Session ) try { $queryScriptBlock = { Set-StrictMode -Version latest switch -wildcard ([System.Globalization.CultureInfo]::InstalledUICulture.Name) { 'de-*' { $perfProcessorUtilityName = '\Prozessorinformationen(_Total)\Prozessorauslastung' $perfMemoryAvailableName = '\Arbeitsspeicher\Verfügbare MB' } default { $perfProcessorUtilityName = '\Processor Information(_Total)\% Processor Utility' $perfMemoryAvailableName = '\Memory\Available MBytes' } } # Gather data from performance counters and CIM system $perfCounter = Get-Counter -Counter $perfProcessorUtilityName, $perfMemoryAvailableName -SampleInterval 1 -MaxSamples 1 $cimComputerSystem = Get-CimInstance -ClassName 'Win32_ComputerSystem' -Property 'Name', 'Domain', 'NumberOfProcessors', 'NumberOfLogicalProcessors' $cimOperatingSystem = Get-CimInstance -ClassName 'Win32_OperatingSystem' -Property 'Caption', 'Version', 'OSLanguage', 'OSArchitecture', 'LastBootUpTime', 'TotalVisibleMemorySize' $cimPageFile = Get-CimInstance -ClassName 'Win32_PageFileUsage' -Property 'CurrentUsage', 'AllocatedBaseSize' $cimDisks = Get-CimInstance -Namespace 'ROOT/Microsoft/Windows/Storage' -ClassName 'MSFT_Disk' -Property 'Number' $cimPartitions = Get-CimInstance -Namespace 'ROOT/Microsoft/Windows/Storage' -ClassName 'MSFT_Partition' -Property 'DiskNumber', 'PartitionNumber', 'MbrType', 'GptType', 'DriveLetter', 'AccessPaths', 'Size' $cimVolumes = Get-CimInstance -Namespace 'ROOT/Microsoft/Windows/Storage' -ClassName 'MSFT_Volume' -Property 'Path', 'FileSystemLabel', 'Size', 'SizeRemaining' $processCount = (Get-Process).Count $connectionCount = (netstat.exe -n).Count - 4 # Subtract the netstat header # Enumerate the sessions $sessions = @(@(qwinsta.exe) | Where-Object { $_ -match '(Active|Aktiv)' } | Select-Object @{ N = 'Id'; E = { $_.Substring(41,5).Trim() } }, @{ N = 'User'; E = { $_.Substring(19,22).Trim() } }, @{ N = 'Session'; E = { $_.Substring(1,18).Trim() } }) $outputDisks = @() foreach ($cimDisk in $cimDisks) { $diskNumber = $cimDisk.Number foreach ($cimPartition in ($cimPartitions | Where-Object { $_.DiskNumber -eq $cimDisk.Number })) { $partitionNumber = $cimPartition.PartitionNumber $partitionType = 'Unknown' switch ($cimPartition.MbrType) { 1 { $partitionType = 'FAT12' } 2 { $partitionType = 'Xenix' } 3 { $partitionType = 'Xenix' } 4 { $partitionType = 'FAT16' } 5 { $partitionType = 'Extended' } 6 { $partitionType = 'Logical' } 7 { $partitionType = 'IFS' } 10 { $partitionType = 'OS/2 BootMgr' } 11 { $partitionType = 'FAT32' } 12 { $partitionType = 'FAT32 XINT13' } 14 { $partitionType = 'XINT13' } 15 { $partitionType = 'XINT13 Extended' } 65 { $partitionType = 'PReP' } 66 { $partitionType = 'LDM' } 99 { $partitionType = 'Unix' } 231 { $partitionType = 'Space Protective' } } switch ($cimPartition.GptType) { '{c12a7328-f81f-11d2-ba4b-00a0c93ec93b}' { $partitionType = 'System' } '{e3c9e316-0b5c-4db8-817d-f92df00215ae}' { $partitionType = 'Reserved' } '{ebd0a0a2-b9e5-4433-87c0-68b6b72699c7}' { $partitionType = 'Basic' } '{5808c8aa-7e8f-42e0-85d2-e1e90434cfb3}' { $partitionType = 'LDM Metadata' } '{af9b60a0-1431-4f62-bc68-3311714a69ad}' { $partitionType = 'LDM Data' } '{de94bba4-06d1-4d40-a16a-bfd50179d6ac}' { $partitionType = 'Recovery' } '{e75caf8f-f680-4cee-afa3-b001e56efc2d}' { $partitionType = 'Space Protective' } '{eeff8352-dd2a-44db-ae83-bee1cf7481dc}' { $partitionType = 'S2D Cache' } '{03aaa829-ebfc-4e7e-aac9-c4d76c63b24b}' { $partitionType = 'S2D Cache Metadata' } } $outputDisk = [PSCustomObject] @{ Id = '{0}x{1}' -f $diskNumber, $partitionNumber Label = $partitionType DriveLetter = $cimPartition.DriveLetter.ToSTring().Trim() AccessPath = [System.String] ($cimPartition.AccessPaths | Where-Object { $_ -match '^[A-Z]:\\' } | Select-Object -First 1) Size = $cimPartition.Size Usage = $null Free = $null Used = $null IsSystem = $cimPartition.DriveLetter -eq 'C' } $volumeNumber = $cimPartition.AccessPaths | Where-Object { $_ -match '^\\\\\?\\Volume{(?<VolumeNumber>[0-9a-fA-F-]{36}})\\$' } | Select-Object -First 1 if ($null -ne $volumeNumber) { $cimVolume = $cimVolumes | Where-Object { $_.Path -eq $volumeNumber } | Select-Object -First 1 if ($null -ne $cimVolume) { if (-not [System.String]::IsNullOrEmpty($cimVolume.FileSystemLabel)) { $outputDisk.Label = $cimVolume.FileSystemLabel } $outputDisk.Size = $cimVolume.Size $outputDisk.Free = $cimVolume.SizeRemaining $outputDisk.Used = $cimVolume.Size - $cimVolume.SizeRemaining if ($cimVolume.Size -gt 0) { $outputDisk.Usage = ($cimVolume.Size - $cimVolume.SizeRemaining) / $cimVolume.Size } } } # if ($null -eq $volumeNumber -or $null -eq $cimVolume) # { # continue # } $outputDisks += $outputDisk } } $output = [PSCustomObject] @{ Timestamp = $null Hostname = $cimComputerSystem.Name Domain = $cimComputerSystem.Domain PowerShell = $PSVersionTable.PSVersion ComputerSystem = [PSCustomObject] @{ Timestamp = [System.DateTime]::Now Uptime = [System.DateTime]::Now - $cimOperatingSystem.LastBootUpTime BootTime = $cimOperatingSystem.LastBootUpTime } OperatingSystem = [PSCustomObject] @{ Name = $cimOperatingSystem.Caption.Replace('Microsoft Windows', 'Windows') Version = $cimOperatingSystem.Version Language = [System.Globalization.CultureInfo]::new([int] $cimOperatingSystem.OSLanguage).Name Architecture = $cimOperatingSystem.OSArchitecture } Processor = [PSCustomObject] @{ SocketCount = $cimComputerSystem.NumberOfProcessors CoreCount = $cimComputerSystem.NumberOfLogicalProcessors Load = $perfCounter.CounterSamples.Where({$_.Path -like "\\*$perfProcessorUtilityName"}).CookedValue * $cimComputerSystem.NumberOfLogicalProcessors / 100 Usage = $perfCounter.CounterSamples.Where({$_.Path -like "\\*$perfProcessorUtilityName"}).CookedValue / 100 } Memory = [PSCustomObject] @{ Size = $cimOperatingSystem.TotalVisibleMemorySize / 1MB Usage = (($cimOperatingSystem.TotalVisibleMemorySize / 1KB) - $perfCounter.CounterSamples.Where({$_.Path -like "\\*$perfMemoryAvailableName"}).CookedValue) / ($cimOperatingSystem.TotalVisibleMemorySize / 1KB) } Page = [PSCustomObject] @{ Size = $cimPageFile.AllocatedBaseSize / 1KB Usage = $cimPageFile.CurrentUsage / $cimPageFile.AllocatedBaseSize } Disks = $outputDisks Processes = [PSCustomObject] @{ Count = $processCount } Connections = [PSCustomObject] @{ Count = $connectionCount } Sessions = [PSCustomObject] @{ Count = $sessions.Count } PSSessions = [PSCustomObject] @{ Count = @(Get-Process -Name 'pwsh', 'powershell' -ErrorAction 'SilentlyContinue').Count } WinRMSessions = [PSCustomObject] @{ Count = @(Get-Process -Name 'wsmprovhost' -ErrorAction 'SilentlyContinue').Count } } # Update the timestamp as the last step $output.Timestamp = [System.DateTime]::Now Write-Output $output } if ($PSBoundParameters.ContainsKey('Session') -and $null -ne $Session) { $output = Invoke-Command -Session $Session -ScriptBlock $queryScriptBlock } else { $output = & $queryScriptBlock } Write-Output $output } catch { $PSCmdlet.ThrowTerminatingError($_) } } |